JP2009197781A - Various energy conservation cycle combined engine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve a problem that there is a risk of annihilation since thermal and nuclear power generation causes a rise in sea temperature by the whole electric-generating capacity and heat quantity, the sea temperature exceeds a thousand times within a century if China continues to grow at the rate of 10%, and this increases the torrential rain and wind speed of a typhoon 10 to 100 times. <P>SOLUTION: Theoretically best engine hydraulic power generation emitting no CO<SB>2</SB>is achieved, and an opposed series full moving blade flywheel water turbine is driven by water gasification explosion power. Thereby, heat consumption is reduced to 1/539 the existing steam turbine, acceleration with the gravity acceleration of 9.8 meters/sec.sec. added downward in a vertical direction within a vacuum to the gasification explosion is achieved, the electric-generating capacity with a drop increased illimitably is increased as power remarkably exceeding a pumping input, the drop is increased 1,000 times, for example, the electric-generating capacity is increased around 1,000 times × gasification explosion power × gravitational acceleration the existing hydraulic power generation, the electric-generating capacity in the existing world is made to remarkably exceed by the hydraulic power generation emitting no CO<SB>2</SB>and performed anywhere, the thermal and nuclear power generation in the existing world is abolished, an automobile driven by a storage battery, a ship driven by the storage battery and all-electric home are led to the heyday by the use of inexpensive hydraulic power generation, and global warming is prevented. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  Theoretical best engine invention Various energy conservation cycle coalescing engines are characterized by the additional acceleration of gravity acceleration in a vacuum, so the gravity acceleration of heavy liquid such as mercury or water is used, and the existing hydroelectric power generation becomes the theoretical best engine power generation. + In the process of pumping up, the water temperature rises to around 80 to 374 degrees by the solar heater 2 + solar heating increase suspension bridge 2b, and the acceleration of the vaporization explosive power is possible, and the head is increased to 100 to 1000m or more by the pumping pump 1H. Gravity in vacuum The present invention relates to a hydroelectric power generation technology aiming at a power generation amount 100 to 1000 times that of existing hydropower generation with the same water amount by adding acceleration.

  The existing hydroelectric power generation is an invention at the time when rotation output generation is sufficient, and the inventor has not invented the theoretical best hydroelectric power generation or global warming prevention, so the water temperature increased to 300 degrees in the process of storage + pumping Then, in addition to the acceleration of vaporization explosion, an output is generated with an acceleration of 9.8 m / second per second in vacuum, and the output is significantly increased from the pumping output of the pump 1H, increasing the head. In the amateur prediction of the process in which the power generation amount increases as much as possible, it is expected to double speed by vaporization explosion acceleration in vacuum * 5 to 10 times speed is expected at additional drop of gravity acceleration in vacuum 100m, opposed series full blade impeller water turbine When driven, the mass of water acting on the turbine blades approaches 1/100, and 20 turbine-wheel turbines 8b having a turbine diameter close to 10 m and a length of 100 to 200 m are driven, thereby accelerating water more than shooting stars. Assuming that the existing hydroelectric power generation is 5 times the amount of power generation, 20 units will be 100 times the amount of power generation, and there is a background technology aiming at 1000 times the same amount of hydroelectric power generation with the same water amount by increasing the head to 1000m by the pump 1H. .

I decided to invent the theoretical best engine in Showa 17-18 and started prototyping at the contract of the Okayama Regional Invention Center in 1963 and continued to make the prototype myself, but the engine prototype is very difficult. Therefore, in February 1982, we started requesting cooperation from a large number of domestic large corporations, etc., but there was no cooperation from Japanese companies, etc., and every time we asked for the cooperation of President Clinton, the only request from foreign countries, three times a year, The 1992 US Patent 5133305, 1993 US Patent 5230307, and 1995 US Patent 5429078 were found to be useless. It was found that there were so many fatal faults in the existing engine that it was impossible to invent the first one, and suddenly, the 1997 homepage was opened and an improvement patent was filed one by one for the faults. It is what you have reached.
There are US Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, US Pat. No. 6,263,664, which is an invention in the process of improving the above-mentioned many background technologies and the following Patent Document 2 theoretical best engine invention. As prior applications, Japanese Patent Application No. 2006-260020, Japanese Patent Application No. 2006-327809, Japanese Patent Application No. 2007-179204, Japanese Patent Application No. 2007-221970, Japanese Patent Application No. 2007-237367, Japanese Patent Application No. 2007-250348, Japanese Patent Application No. 2007- No. 265115, Japanese Patent Application No. 2008-6612, Japanese Patent Application No. 2008-22246, Japanese Patent Application No. 2008-24656, Japanese Patent Application No. 2008-28582, Japanese Patent Application No. 2008-30162, Japanese Patent Application No. 2008-94452, Japanese Patent Application No. 2008-99870 No., Japanese Patent Application No. 2008-125665, Japanese Patent Application No. 2008-134046, and Japanese Patent Application No. 2008-137629.

  In the existing thermal power plants in the world, CO2 increases global warming acceleration and sea surface temperature rises 7 degrees Celsius close to 1000 times, making it impossible to supply nutrients to the sea surface cooling seabed in the winter, drastically reducing fish foods The world's best engine to drastically reduce human food underwater, drastically increase dredging, torrential rain and typhoon wind speed, make food production on land more difficult, and increase the danger of human extinction With hydroelectric power generation, the same amount of water will be generated 1000 times that of hydroelectric power generation in the existing world, and the existing world thermal power plants will be completely abolished.

  Theoretical best engine hydro power generation with zero CO2 emissions Increases the same water volume to 100-1000 times the existing hydropower generation, reduces the total abolished CO2 exhaust of existing world thermal power plants to prevent global warming, 7 degrees sea level This has the effect of reducing the increase in the rising sea area and delaying the extinction of mankind.

  Embodiments and examples of the invention will be described with reference to the drawings, but the same names or reference numerals are given to the same parts as those of the embodiments and examples and the description above, and duplicate description will be omitted. Omitted as much as possible, and the characteristic parts and the lack of explanation will be added and explained sequentially. The idea is explained with hypothetical numbers for the very difficult brain invention best engine invention and to explain the intention and expectation concretely clearly, but the correct answer is the hypothetical number of the theoretical best engine as an experimental number. It is not limited to. The idea that seems to be the best is duplicated in many applications, the idea is selected and used according to the application, and the claims are changed to be used according to the various applications.

  The opposed series full blade impeller water turbine 8K in FIG. 1 is provided with multi-stage impeller series turbine water turbines 8b8b opposed to each other in multi-stages as long as they are opposed to each other in series. Efficient use of 8m / sec., The turbine blade 8c and the measuring plate 8d of the selected turbine blade cross section 4X have a large diameter of the all-wheel impeller water turbine 8b and a high speed water speed of 10,000 revolutions, etc. In order to reduce the amount of water acting on the turbine blade 8c to 1/100 or the like, the axial length is set to 100 to 500 m, etc., and generators are provided on both sides, and an optimum interval is provided in the turbine outer box 77a. Provided at optimum intervals, synchronized by magnetic friction synchronizers 55, 55, etc., and provided with a large number of strength magnitude intervals according to the injection mass by appropriately approaching or meshing with each other without contact, turbine blades 8c8c Each cylindrical cylinder 8e8e is extended and enlarged in the radial direction of the outer peripheral axis in accordance with the application output, and the output generating turbine blade 8c is reduced to about 1/10 to reduce the friction loss of the all blade impeller water turbine 8b heating high temperature means 3B etc. By rolling contact with the means, the head will increase to a drop of 1000m.

  In the series full blade impeller water turbine 8L in FIG. 2, the full blade impeller water turbine 8b is provided in multiple stages without limitation in parallel and perpendicular to the outer casing vertical portion 94A, and high temperature water 52b vaporization explosive force + gravity acceleration in vacuum 9 Efficiently use 8 m / sec / s, select the turbine blade 8c and the measuring plate 8d of the selected turbine blade cross section 4X, and increase the diameter of the all-wheel impeller water turbine 8b to a large diameter and the rotational speed of the high-speed water speed to 10,000 revolutions, etc. In order to reduce the amount of water acting on the turbine blade 8c to 1/100 or the like, the axial length is 100 to 500 m, etc., and the generator is provided on both sides, and is optimal for the turbine outer box 77a. Provided at optimal intervals, provided at optimal intervals, and provided with a large number of strength intervals according to the injection mass, and extended and expanded the turbine blades 8c in the radial direction of the outer circumferential axis of the cylindrical body 8e in accordance with the application output. Generating turbine blade 8c 1/10 was back and forth, in the contact driving rolling friction loss reduction means such Zendotsubasa flywheel water turbine 8b heating hot section 3B, and aim to 500 times the power generation amount increase same water existing hydropower drop 1000 m.

  The opposed series full blade impeller water turbine 8K to serial full blade impeller water turbine 8L in FIG. 3 is provided with all the blade impeller water turbines 8b in multiple stages without limitation in parallel horizontal and vertical, and high temperature water 52b vaporization explosive force + vacuum. In particular, the gravitational acceleration of 9.8 m / second per second is efficiently used, the diameter of the turbine blade 8c and the measuring plate 8d of the selected turbine blade cross section 4X is set to the large diameter of the moving blade spring vehicle water turbine 8b and a large diameter close to 10 m. Is reduced to 10,000 rpm, the amount of water acting on the turbine blade 8c is reduced to 1/100, etc., and the axial length is divided into a large number such as 100 to 500 m, and divided into 20 to 50 m. The generator 1 and the like are provided on both sides, the turbine outer casing 77a is provided with the optimum interval and provided with the optimum interval, and the turbine blades 8c of the cylindrical body 8e are provided with a plurality of strength and magnitude intervals according to the injection mass. Peripheral radius Extending and expanding in accordance with the output of the use, the whole blade impeller water turbine 8b is rolled and driven by friction loss reducing means such as the heating high temperature means 3B, and increased to a drop of 1000m The same water amount 500 to 1000 times the existing hydroelectric power generation Aim for power generation.

  The embodiment of the solar thermal augmentation suspension bridge 2b in FIG. 4 is provided as a solar heater 2 that is not shown in the figure by using a vast water surface of the existing hydroelectric power plant instead of the suspension tool of the solar thermal augmentation suspension bridge 2b. In the process of heating the water, raising the water temperature using the refractive lens of the sunlight around 300 degrees in the process of boosting the pump several times by the pump 1H, and increasing the head to 300-1000 m with the insulated solar thermal suspension bridge 2b, Concentrated sunlight is concentrated on the water 52b tube by using the refraction glass, and the water temperature is set to 374 degrees 24 MPa and the like, and the water injection pump 6z is injected at around 400 MPa, and the opposed series all blade impeller water turbine 8K to the series all blades are injected. Driving the impeller water turbine 8L, generating the same amount of water 500-1000 times that of existing hydroelectric power generation, cooling the vaporization heat with low-temperature water in the reservoir to the maximum vacuum during the exhaust process, Refracted light is concentrated at 374 degrees Celsius, etc. with solar vessel 2 and solar thermal augmentation suspension bridge 2b lens, solar thermal augmentation suspension bridge 2b moves vertically up and down at right angles to sunlight, etc. The technology produces and heats superheated steam, raises the water temperature to match the amount of power generation, and repeatedly generates hydroelectric power.

  Theoretical best engine hydroelectric power generation with zero CO2 emissions can greatly reduce existing global power generation, and make global power generation prevention possible by making very inexpensive hydroelectric battery-powered automobile prime, battery-powered ship prime, and fully electrified housing prime. There is sex.

Cross section of opposed series full blade impeller water turbine using 8K gravity acceleration (Example 1) Cross-sectional view of using gravity acceleration in series all blade impeller water turbine 8L (Example 2) Cross-sectional view of series full blade impeller water turbine 8K8L + generator (Example 3) Explanatory drawing of the solar heater 2 and the solar heat increase suspension bridge 2b (Example 4)

Explanation of symbols

  1: generator, 1F: water pump, 1H: pumping pump, 2: solar heater, 2a: condenser, 2b: solar heat increasing suspension bridge, 3: friction loss reducing means (water repellent action, heating high temperature means, etc. 3A: Water repellent action (means for reducing friction loss with water) 3B: High temperature heating means (high temperature with existing technology such as electric resistance and electromagnetic heating) 3C: Cold recovery means 3G: Water repellent action ( 4A: Turbine blade cross section (existing cross section) 4B: Turbine blade cross section (output surface curved small cross section) 4C: Turbine blade cross section (output surface straight cross section) 4D: Turbine blade cross section (output opposite surface straight line) Cross section) 4E: Turbine blade cross section (curved cross section on the opposite side of the output) 4F: Turbine blade cross section (existing opposite cross section) 4X: Turbine blade cross section (cross section selected from 4A to 4F) 6: Nozzle, 6a: Nozzle injection section, b: Nozzle injection unit, 6d: Nozzle injection unit, 6z: Water injection pump, 8b: Full blade impeller water turbine (full dynamic blade water turbine), 8c: Turbine blade, 8d: Side plate, 8e: Cylindrical body, 8K: Opposed series full blade impeller water turbine, 8L: series full blade impeller water turbine, 11A: partition wall, 11B: water chamber, 11C: air chamber, 28a: air, 51: air extractor, 52a: water, 52b: hot water 80A: joint, 81: support shaft, 81a: fulcrum,

Claims (5000)

  Addition of gravity acceleration in vacuum to existing hydropower generation Accelerating vertically downward, various energy conservation cycle coalescence engine aiming at power generation amount equal to or more than 200 times the same water amount.   Addition of gravity acceleration in vacuum to existing hydroelectric power generation. Various energy conservation cycle coalescence engines aiming to generate power more than 100 times the same amount of water by accelerating vertically downward.   Addition of gravity acceleration in vacuum to existing hydropower generation Accelerating vertically downward, various energy conservation cycle coalescence engine aiming at power generation amount more than 50 times the same water amount.   Additional energy storage cycle coalescence engine that aims to generate electricity more than 25 times the same amount of water by accelerating gravitational acceleration in vacuum in addition to existing hydroelectric power generation.   Additional energy storage cycle coalescence engine that aims to generate electricity more than 12 times the same amount of water by accelerating gravitational acceleration in vacuum in addition to existing hydroelectric power generation.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in a vacuum, and various energy conservation cycle coalescence engines aiming for the same amount of water generation 200 times or more.   Solar energy heater (2) for existing hydroelectric power generation + Accelerating gravity acceleration in a vacuum, and various energy conservation cycle coalescence engines aiming at the same amount of water generation more than 100 times.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum, and various energy conservation cycle coalescence engines aiming at the same amount of power generation 50 times or more.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum, and various energy conservation cycle coalescence engines aiming for power generation of more than 25 times the same water volume.   Solar power heater (2) for existing hydroelectric power generation + Additional acceleration of gravity in vacuum, vertically accelerating vertically and combining various energy conservation cycle engines aiming at power generation of 12 times or more.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in a vacuum, and various energy conservation cycle coalescence engines aiming for the same amount of water generation 200 times or more.   Solar energy heater (2) for existing hydroelectric power generation + Accelerating gravity acceleration in a vacuum, and various energy conservation cycle coalescence engines aiming at the same amount of water generation more than 100 times.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum, and various energy conservation cycle coalescence engines aiming at the same amount of power generation 50 times or more.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum, and various energy conservation cycle coalescence engines aiming for power generation of more than 25 times the same water volume.   Solar power heater (2) for existing hydroelectric power generation + Additional acceleration of gravity in vacuum, vertically accelerating vertically and combining various energy conservation cycle engines aiming at power generation of 12 times or more.   Combined with existing hydroelectric power generation pump (1H) + solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, various energy storage cycle coalescence engines aiming at the same amount of water generation 200 times or more.   Combined with existing hydroelectric power generation pump (1H) + solar heater (2) + various energy conservation cycle coalescence engines aiming to generate power more than 100 times the same amount of water by accelerating gravitational acceleration vertically downward in vacuum.   Combined with existing hydroelectric power generation pumps (1H) + solar heaters (2) + various energy conservation cycle coalescence engines aiming to generate more than 50 times the same water volume by accelerating gravitational acceleration vertically downward in vacuum.   Combined with existing hydroelectric power generation pump (1H) + solar heater (2) + Accelerating gravity acceleration in vacuum vertically, and various energy conservation cycle coalescence engines aiming for power generation more than 25 times the same water volume.   Combined with existing hydroelectric power generation pump (1H) + solar heater (2) + various energy storage cycle coalescence engines aiming at power generation more than 12 times the same water volume by accelerating gravitational acceleration vertically downward in vacuum.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum, and vertical acceleration, various types aiming at the same amount of water generation 200 times or more Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive power of 300 degrees or more + Gravitational acceleration in vacuum is accelerated vertically downward, aiming at the same water volume 200 times or more Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive power of 200 degrees or more + Gravity acceleration in vacuum is further accelerated vertically downward, aiming at the same water volume 200 times or more Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive power of 200 degrees or less + Gravitational acceleration in vacuum is accelerated vertically downward, aiming at the same water volume 200 times or more Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive power of 100 degrees or less + Gravity acceleration in vacuum is further accelerated vertically downward, aiming at the same amount of water generation 200 times or more Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive power around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, aiming at the same amount of water generation more than 100 times Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 300 degrees or more + Gravitational acceleration in vacuum is further accelerated vertically downward, aiming at power generation of more than 100 times the same water volume Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive power of 200 degrees or more + Gravitational acceleration in vacuum is further accelerated vertically downward, aiming at power generation of more than 100 times the same water volume Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive force of 200 degrees or less + Gravitational acceleration in vacuum is further accelerated vertically downward, aiming at power generation of more than 100 times the same water volume Energy conservation cycle coalescence engine.   Various types of existing hydroelectric power generation with a pumping pump (1H) + solar power heater (2) for vaporization explosive power of 100 degrees or less + gravitational acceleration in a vacuum and vertically accelerating, aiming to generate power more than 100 times the same water volume Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive power around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, aiming at power generation more than 50 times the same water volume Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 300 degrees or more + Gravitational acceleration in vacuum is further accelerated vertically downward, aiming at power generation more than 50 times the same water volume Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive power of 200 degrees or more + Gravitational acceleration in vacuum is further accelerated vertically downward, aiming at power generation more than 50 times the same water volume Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, aiming at power generation more than 50 times the same water volume Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive power of 100 degrees or less + Gravitational acceleration in vacuum is accelerated vertically downward, aiming at power generation more than 50 times the same water volume Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, aiming at power generation of more than 25 times the same water volume Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive power of 300 degrees or more + Gravity acceleration in vacuum is further accelerated vertically downward, aiming to generate power more than 25 times the same amount of water Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive force of 200 degrees or more + Gravitational acceleration in vacuum is accelerated vertically downward, aiming to generate power more than 25 times the same amount of water Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive power of 200 degrees or less + Gravitational acceleration in vacuum is accelerated vertically downward, aiming at the same water volume 25 times or more Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive power of 100 degrees or less + Gravitational acceleration in vacuum is further accelerated vertically downward, aiming at power generation of more than 25 times the same water volume Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive power of around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, aiming to generate power more than 12 times the same water volume Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive force of 300 degrees or more + Gravitational acceleration in vacuum is further accelerated vertically downward, aiming to generate power more than 12 times the same amount of water Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive power of 200 degrees or more + Gravitational acceleration in vacuum is further accelerated vertically downward, aiming at the same water volume 12 times or more Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 200 degrees or less + gravitational acceleration in vacuum, vertical acceleration, various types of power generation aiming at 12 times the same water volume Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporization explosive power of 100 degrees or less + Gravity acceleration in vacuum is further accelerated vertically downward, aiming to generate power more than 12 times the same amount of water Energy conservation cycle coalescence engine.   Add to existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power around 374 degrees + gravitational acceleration in vacuum, vertical acceleration, various energy storage aiming at maximum water production Cycle coalescence engine.   Add to existing hydroelectric power generation pumping pump (1H) + solar heater (2), vaporization explosive power of 300 degrees or more + additional acceleration of gravity in vacuum vertically downward, various energy storage aiming at the same water maximum power generation Cycle coalescence engine.   Add to existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum further vertically downward, various energy storage aiming at the same water maximum power generation Cycle coalescence engine.   Add to existing hydroelectric power generation pumping pump (1H) + solar heater (2), vaporization explosive power of 200 degrees or less + gravity acceleration in a vacuum, vertically accelerated to save various energy aiming at the same maximum water generation Cycle coalescence engine.   Add to existing hydroelectric power generation pumping pump (1H) + solar heater (2), vaporization explosive power of 100 degrees or less + additional acceleration of gravity in vacuum vertically downward, various energy storage aiming at the same water maximum power generation Cycle coalescence engine.   An energy storage cycle coalescence engine that aims to generate power more than 200 times the same amount of water by accelerating gravitational acceleration in the vertical direction by adding a pump with a pump (1H) to the existing hydropower generation + vacuum.   Various energy storage cycle coalescence engines aiming at power generation more than 100 times the same water quantity by increasing the head by pumping pump (1H) to existing hydroelectric power generation + accelerating gravitational acceleration vertically downward in vacuum.   Combined engine with various energy storage cycles that aim to generate more than 50 times the same amount of water by accelerating gravitational acceleration vertically downward in a vacuum with a pumping pump (1H) to existing hydroelectric power generation.   Various energy conservation cycle coalescence engines aiming at power generation more than 25 times the same water volume by accelerating gravitational acceleration in the vertical direction with a pumping pump (1H) added to existing hydroelectric power generation + vacuum.   Various energy storage cycle coalescence engines aiming at power generation more than 12 times the same water volume by accelerating gravitational acceleration further downward in the vacuum with a pumping pump (1H) to existing hydroelectric power generation.   Various energy storage cycle coalescence engines aiming at the same amount of water generation 200 times or more by increasing the acceleration of gravity by adding a drop of 1000m with a pump (1H) to existing hydroelectric power generation + vertical acceleration in vacuum.   Various energy conservation cycle coalescence engines aiming at the same amount of water generation more than 100 times by accelerating gravitational acceleration in the vertical direction by adding a drop of 1000m with a pump (1H) to existing hydroelectric power generation + vacuum.   Various energy conservation cycle coalescence engines aiming at power generation more than 50 times the same amount of water by accelerating gravitational acceleration vertically downward in the vacuum with a pumping pump (1H) added to existing hydroelectric power generation by 1H.   Various energy conservation cycle coalescence engines aiming at power generation more than 25 times the same water volume by accelerating gravitational acceleration additionally downward in the vacuum by a pumping pump (1H) to existing hydroelectric power generation + 1 m.   Various energy conservation cycle coalescence engines aiming at power generation more than 12 times the same water quantity by accelerating gravitational acceleration vertically downward in the vacuum by adding pump height (1H) to existing hydroelectric power generation by 1000m.   Various energy storage cycle coalescence engines aiming at power generation more than 200 times the same water volume by accelerating gravitational acceleration vertically downward in vacuum by adding pump height (1H) to existing hydroelectric power generation by 1H.   Various energy storage cycle coalescence engines aiming at power generation more than 100 times the same amount of water by accelerating gravitational acceleration in the vertical direction by adding a drop of 800m with a pump (1H) to existing hydropower generation + vacuum.   Various energy conservation cycle coalescence engines aiming at power generation more than 50 times the same amount of water by accelerating gravitational acceleration vertically downward in the vacuum by adding a pump height (1H) to the existing hydroelectric power generation by 1H.   Various energy storage cycle coalescence engines aiming to generate more than 25 times the same amount of water by accelerating gravitational acceleration in the vertical direction by adding a drop of 800m with a pump (1H) to existing hydropower generation + vacuum.   Various energy storage cycle coalescence engines aiming at power generation more than 12 times the same water volume by accelerating gravitational acceleration in the vertical direction by adding a drop of 800 m with a pump (1H) to existing hydroelectric power generation + vacuum.   Various energy storage cycle coalescence engines aiming at the same amount of water generation more than 200 times by accelerating gravitational acceleration in the vertical direction by adding a drop of 600m with a pump (1H) to existing hydroelectric power generation + vacuum.   Various energy storage cycle coalescence engines aiming at power generation more than 100 times the same amount of water by accelerating gravitational acceleration vertically downward by adding a drop of 600 m with a pump (1H) to existing hydroelectric power generation.   Various energy storage cycle coalescence engines aiming at power generation more than 50 times the same amount of water by accelerating gravitational acceleration vertically downward in the vacuum by adding a pump of 1m to the existing hydroelectric power generation (1H) + vacuum.   Various energy storage cycle coalescence engines aiming for power generation more than 25 times the same water volume by accelerating gravitational acceleration vertically downward by adding a drop of 600 m with a pump (1H) to existing hydroelectric power generation.   Various energy storage cycle coalescence engine aiming at power generation amount of 12 times or more with the same water amount by accelerating gravitational acceleration vertically downward in vacuum by adding pump drop (1H) to existing hydroelectric power generation by 1H.   Various energy conservation cycle coalescence engines aiming at the same amount of water generation more than 200 times by accelerating gravitational acceleration in vertical direction by adding a drop of 400m with a pump (1H) to existing hydropower generation + vacuum.   Various energy conservation cycle coalescence engines aiming at power generation more than 100 times the same water quantity by accelerating gravitational acceleration vertically downward in the vacuum by adding a 400m drop with a pump (1H) to existing hydroelectric power generation.   A combined energy storage cycle engine that aims to generate power more than 50 times the same amount of water by accelerating gravitational acceleration vertically downward in a vacuum by adding a 400m drop with a pump (1H) to existing hydroelectric power generation.   Various energy storage cycle coalescence engines aiming at power generation more than 25 times the same water volume by accelerating gravitational acceleration vertically downward by adding a 400m drop with a pump (1H) to existing hydroelectric power generation.   Various energy conservation cycle coalescence engines aiming at power generation more than 12 times the same water volume by accelerating gravitational acceleration vertically downward in the vacuum by adding a 400m drop with a pump (1H) to existing hydroelectric power generation.   Various energy conservation cycle coalescence engines aiming at power generation of 200 times or more with the same amount of water by accelerating gravitational acceleration in the vertical direction by adding a drop of 200 m or less with a pump (1H) to existing hydropower generation + vacuum.   Various energy storage cycle coalescence engines aiming at the same amount of water generation more than 100 times by accelerating gravitational acceleration in the vertical direction by adding a drop of 200m or less with a pump (1H) to existing hydropower generation + vacuum.   Various energy storage cycle coalescence engines aiming at power generation more than 50 times the same amount of water by accelerating gravitational acceleration vertically downward in a vacuum by adding a pump with a pump (1H) to an existing hydroelectric power generation.   Various energy conservation cycle coalescence engines aiming at the same amount of water generation 25 times or more by accelerating gravitational acceleration in the vacuum by adding a drop of 200m or less with a pump (1H) to existing hydroelectric power generation + vacuum.   Various energy storage cycle coalescence engines aiming at power generation amount of 12 times or more by accelerating gravitational acceleration vertically downward in vacuum with a pumping pump (1H) added to existing hydropower generation + vacuum.   Combined with existing hydroelectric power generation by a pump (1H) with a drop of 1000m + solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerated, aiming at the same amount of water more than 200 times the energy conservation cycle organ.   Combined with existing hydroelectric power generation by a pumping pump (1H) with a drop of 1000m + solar heater (2) + acceleration of gravity in vacuum, vertically accelerated, and combined with various energy conservation cycles aiming for power generation of the same amount of water more than 100 times organ.   Combined with existing hydroelectric power generation pumps (1H) with a drop of 1000m + solar heater (2) + additional acceleration of gravity in the vacuum vertically downward, combining various energy conservation cycles aiming at power generation more than 50 times the same water volume organ.   Combined with existing hydroelectric power generation pumps (1H) with a drop of 1000m + solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerated, and various energy conservation cycles that aim to generate power more than 25 times the same amount of water organ.   Combined with existing hydroelectric power generation pumps (1H) with a drop of 1000m + solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerating downwards, aiming to generate more than 12 times the same water volume organ.   Combined with existing hydroelectric power generation with an increase of 800m with a pump (1H) + solar heater (2) + acceleration of gravitational acceleration in a vacuum vertically and combined with various energy conservation cycles aiming at the same amount of power generation 200 times or more organ.   Combined with existing hydroelectric power generation with an increase of 800m with a pump (1H) + solar heater (2) + acceleration of gravity acceleration in vacuum, vertically accelerating the energy to 100% more than the same amount of water organ.   Combined with existing hydroelectric power generation with an increase of 800m with a pump (1H) + solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, and combined with various energy conservation cycles aiming at power generation more than 50 times the same water volume organ.   Combined with existing hydroelectric power generation with an increase of 800m with a pump (1H) + solar heater (2) + acceleration of gravitational acceleration in a vacuum vertically and combined with various energy conservation cycles aiming for power generation of the same amount of water more than 25 times organ.   Combined with existing hydroelectric power generation with an increase of 800m with a pump (1H) + solar heater (2) + acceleration of gravitational acceleration in a vacuum vertically and combined with various energy conservation cycles aiming for the same amount of water more than 12 times organ.   Combined with existing hydroelectric power generation by a pump (1H) with a drop of 600m + solar heater (2) + additional acceleration of gravity in the vacuum vertically downward, combining various energy conservation cycles aiming for the same amount of water more than 200 times organ.   Combined with existing hydroelectric power generation by a pump (1H) with a drop of 600m + solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerating, and combining various energy conservation cycles aiming for power generation of the same amount of water more than 100 times organ.   Combined with existing hydroelectric power generation by pumping pump (1H) 600m + solar heater (2) + Accelerating gravity acceleration in vacuum vertically and combining various energy conservation cycles aiming at power generation more than 50 times the same water volume organ.   Combined with existing hydroelectric power generation by a pump (1H) with a drop of 600m + solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerating downwards, aiming to generate power more than 25 times the same amount of energy conservation cycle organ.   Combined with existing hydroelectric power generation by a pump (1H) with a drop of 600m + solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerating vertically and combining various energy conservation cycles aiming for power generation more than 12 times the same water volume organ.   Combined with existing hydroelectric power generation, a 400m drop with a pump (1H) + solar heater (2) + accelerating gravitational acceleration vertically in a vacuum, and combining various energy conservation cycles aiming at the same amount of water generation 200 times or more organ.   Combined with existing hydroelectric power generation with a pump (1H) 400m + solar heater (2) + Accelerating gravity acceleration in vacuum vertically and combining various energy conservation cycles aiming at power generation more than 100 times the same water volume organ.   Combined with existing hydroelectric power generation, a 400m drop with a pump (1H) + solar heater (2) + accelerating gravitational acceleration in vacuum vertically and combining various energy conservation cycles aiming at power generation more than 50 times the same water volume organ.   Combined with existing hydroelectric power generation by a pumping pump (1H) + 400m drop + solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerating, and various energy conservation cycles that aim for the same amount of water more than 25 times organ.   Combined with existing hydroelectric power generation, a 400m drop with a pump (1H) + solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerating downwards, aiming to generate more than 12 times the same water volume organ.   Increase energy drop by 200m or less by pumping pump (1H) to existing hydroelectric power generation + Solar heater (2) + Accelerate gravitational acceleration vertically in the vertical direction, various energy conservation cycles aiming at power generation of 200 times or more of the same amount of water Combined organization.   Increase energy drop by 200m or less with pumping pump (1H) to existing hydroelectric power generation + Solar heater (2) + Accelerate gravitational acceleration vertically downward, and various energy conservation cycles aiming at power generation more than 100 times the same water volume Combined organization.   Increase energy drop by 200m or less by pumping pump (1H) to existing hydroelectric power generation + Solar heater (2) + Accelerate gravitational acceleration vertically in the vertical direction, various energy conservation cycles aiming at power generation more than 50 times the same amount of water Combined organization.   Increase energy drop by 200m or less with pumping pump (1H) to existing hydroelectric power generation + Solar heater (2) + Accelerate gravitational acceleration vertically in the vertical direction, and various energy conservation cycles aiming at power generation more than 25 times the same water volume Combined organization.   Increase energy drop by 200m or less by pumping pump (1H) to existing hydroelectric power generation + Solar heater (2) + Accelerate gravitational acceleration vertically in the vertical direction, various energy conservation cycles aiming at power generation of 12 times or more of the same water volume Combined organization.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum to generate more than 200 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive power of around 374 degrees with solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward to generate more than 100 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive power of around 374 degrees with solar heater (2) + additional acceleration of gravity in vacuum vertically, generating more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive force of around 374 degrees with solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + acceleration of gravity is further accelerated vertically in the vacuum to generate more than 100 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 200m or less with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is more than 200 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the vaporization explosive force around 374 degrees with the solar heater (2) + the acceleration of gravity in the vacuum is further accelerated vertically downward, the same amount of water more than 50 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + vaporization explosive force of around 374 degrees by solar heater (2) + gravity acceleration is further accelerated vertically in vacuum, and the same water volume is more than 25 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, increase by 200m or less with pump (1H) + vaporization explosive force of around 374 degrees with solar heater (2) + additional acceleration of gravity in vacuum in the vertical direction, the same amount of water more than 12 times Various energy conservation cycle coalescence engines aiming at power generation.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive power of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum, vertically generating the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, generating the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, generating the same amount of water more than 50 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive power of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydropower generation with 800m drop by pumping pump (1H) + more than 300 degrees vaporization explosive power with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum to generate 50 times or more the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 25 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive power of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum, generating the same amount of water more than 50 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive power of 300 degrees or more with the solar heater (2) + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration of 200% or more Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + 300 degree or more vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration downward in vacuum, same amount of water more than 50 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + vaporization explosive force of 300 degrees or more by solar heater (2) + gravitational acceleration is further accelerated vertically under vacuum, and the same amount of water is 25 times or more Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 300 degree or more vaporization explosive force with a solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, and the same amount of water is 12 times or more Various energy conservation cycle coalescence engines aiming at power generation.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 200 degree or more vaporization explosive power with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 200 degree or more vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive force with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive power with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 200 degree or more vaporization explosive power with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + 200 degrees or more of vaporization explosive force by a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 50 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a vaporization explosive force of 200 degrees or more with a solar heater (2) + the acceleration of gravity in the vacuum is accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + 200 ° C or more vaporization explosive force with a solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosion force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 400m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + more than 200 degrees of vaporization explosive power with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, the same amount of water is more than 200 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 200 degree or more vaporization explosive force with a solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, the same amount of water is more than 100 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 200 degrees or more of vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 50 times or more Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosion force of 200 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, and the same amount of water more than 25 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 12 times or more Various energy conservation cycle coalescence engines aiming at power generation.   In existing hydroelectric power generation, the head is increased by 1000m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated downward in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, increase in drop by 1000m with pumping pump (1H) + vaporization explosive force of 200 degrees or less with solar heater (2) + additional acceleration of gravity acceleration in vacuum vertically to generate the same amount of water more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum to generate the same amount of water more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 200 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 100 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, the head is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 400m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 25 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive force of 200 degrees or less with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 200 times or more Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 50 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 25 times or more Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, increase by 200m or less with pump (1H) + vaporization explosive force of 200 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 12 times Various energy conservation cycle coalescence engines aiming at power generation.   In existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 100 degrees or less with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating the same amount of water more than 50 times Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, the head is increased by 1000m with the pump (1H) + the vaporization explosive force of 100 degrees or less with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, increase in drop by 1000m with pumping pump (1H) + vaporization explosive force of 100 degrees or less with solar heater (2) + additional acceleration of gravity in vacuum vertically, generating 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Vaporization explosive power of 100 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 100 degrees or less by solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive power of 100 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 50 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically under vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive power of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 200 times or more Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with the pump (1H) + the vaporization explosive force of 100 degrees or less with the solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 50 times Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 25 times or more Various energy conservation cycle coalescence engines aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 12 times or more Various energy conservation cycle coalescence engines aiming at power generation.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 800m with the pump (1H) + the solar gas heater (2) has the maximum vaporization and explosive power + the acceleration of gravity is further accelerated downward in the vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 800m with the pump (1H) + the solar gas heater (2) has the maximum vaporization explosive force + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 50 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + Solar gas heater (2) has a maximum vaporization and explosive force. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + the solar gas heater (2) increases the vaporization explosive power to the maximum + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + the solar gas heater (2) increases the vaporization explosion power to the maximum + the acceleration of gravity is further accelerated vertically in the vacuum, and the amount of water generated is more than 100 times the same. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosion power + a gravitational acceleration in a vacuum is further accelerated vertically downwards to generate the same amount of water more than 25 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation is increased by 400m by pumping pump (1H) + maximum vaporization explosive power by solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, and the same amount of water is generated more than 200 times Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + Solar gas heater (2) with maximum vaporization explosive power + Gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosion power + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 50 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + Solar gas heater (2) has a maximum vaporization and explosive force + Gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration vertically in the vacuum, generating the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, increase of drop 200m or less with pumping pump (1H) + maximum increase of vaporization explosive power with solar heater (2) + acceleration of gravity in vacuum further downward acceleration to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engines aiming for quantity.   Increased drop by 200m or less with pumping pump (1H) to existing hydroelectric power generation + Increased vaporization explosion power to maximum with solar heater (2) + Accelerated gravity acceleration in vacuum vertically, generating more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + the vaporization explosive power is maximized with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   The existing hydroelectric power generation has a drop of 200m or less with a pump (1H) + Solar gas heater (2) has a maximum increase in vaporization and explosion power + Accelerates gravitational acceleration vertically in the vacuum to generate more than 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Water-floating solar heater (2) + existing gravity power generation combined with various energy conservation cycle engines that accelerate gravity downward in the vacuum and aim for the same amount of water generation 200 times or more.   Water-floating solar heater (2) for existing hydropower generation + Accelerating gravitational acceleration in a vacuum, various energy storage cycle coalescence engines aiming for power generation of the same amount of water more than 100 times.   Water-floating solar heater (2) for existing hydropower generation + Accelerating gravitational acceleration in a vacuum, and various energy conservation cycle coalescence engines aiming at power generation more than 50 times the same water volume.   Water-floating solar heater (2) + existing gravity power generation combined with various energy conservation cycle engines that accelerate the gravitational acceleration vertically downward in the vacuum and aim to generate power more than 25 times the same amount of water.   Water-floating type solar heater (2) + existing gravity power generation combined with various energy storage cycle engines that aim to generate electricity more than 12 times the same amount of water by accelerating gravitational acceleration vertically downward.   Water-floating solar heater (2) + existing gravity power generation combined with various energy conservation cycle engines that accelerate gravity downward in the vacuum and aim for the same amount of water generation 200 times or more.   Water-floating solar heater (2) for existing hydropower generation + Accelerating gravitational acceleration in a vacuum, various energy storage cycle coalescence engines aiming for power generation of the same amount of water more than 100 times.   Water-floating solar heater (2) for existing hydropower generation + Accelerating gravitational acceleration in a vacuum, and various energy conservation cycle coalescence engines aiming at power generation more than 50 times the same water volume.   Water-floating solar heater (2) + existing gravity power generation combined with various energy conservation cycle engines that accelerate the gravitational acceleration vertically downward in the vacuum and aim to generate power more than 25 times the same amount of water.   Water-floating type solar heater (2) + existing gravity power generation combined with various energy storage cycle engines that aim to generate electricity more than 12 times the same amount of water by accelerating gravitational acceleration vertically downward.   Combined with existing hydroelectric power generation pump (1H) + surface floating solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerating, and various energy conservation cycle coalescence engines aiming at the same amount of water generation 200 times or more .   Combined with existing hydroelectric power generation pump (1H) + surface floating solar heater (2) + additional acceleration of gravity in vacuum, vertically accelerated, and various energy conservation cycle coalescence engines aiming for power generation of more than 100 times the same amount of water .   Existing hydroelectric power generation pump (1H) + surface-floating solar heater (2) + additional acceleration of gravity in a vacuum, vertically accelerating various energy conservation cycle coalescence engines aiming at the same amount of water generation 50 times or more .   Existing hydroelectric power generation pump (1H) + surface floating solar heater (2) + additional gravity acceleration in vacuum, vertically accelerating gravitational acceleration, various energy conservation cycle coalescence engines aiming for power generation more than 25 times the same water volume .   Existing hydroelectric power generation pump (1H) + surface-floating solar heater (2) + additional acceleration of gravity in a vacuum, vertically accelerating various energy conservation cycle coalescence engines aiming for power generation more than 12 times the same water volume .   Existing hydropower generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   In addition to the existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated 200 times or more. Various energy conservation cycle coalescence engine aiming for.   In addition to the existing hydroelectric power generation pump (1H) + surface-floor type solar heater (2), vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated more than 200 times Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pumping pump (1H) + surface floating solar heater (2), vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   For existing hydropower generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 50 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum, and accelerate vertically downward to generate the same amount of water more than 50 times Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum, and accelerate vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, and accelerate vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 50 times or more Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravity acceleration in vacuum vertically, the same amount of water more than 25 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum, and accelerate vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water more than 25 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 25 times or more Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 25 times or more Various energy conservation cycle coalescence engine aiming for.   For existing hydroelectric power generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum, vertically accelerated, the same water volume 12 times or more Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 12 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   For existing hydroelectric power generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is generated 12 times or more Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same water volume 12 times or more Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of around 374 degrees + gravity acceleration in vacuum, aiming for the same maximum water generation by accelerating gravitational acceleration vertically downward Various energy conservation cycle coalescence engine.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 300 degrees or more + additional acceleration of gravity in vacuum, aiming for maximum power generation with the same amount of water Various energy conservation cycle coalescence engine.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, aiming at the same maximum water generation Various energy conservation cycle coalescence engine.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force below 200 degrees + gravity acceleration in vacuum, aiming for the same maximum water generation by accelerating gravitational acceleration vertically downward Various energy conservation cycle coalescence engine.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 100 degrees or less + additional acceleration of gravity in vacuum, aiming for the same maximum water generation Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration in a vacuum is accelerated vertically downward, aiming at the same amount of water generation 200 times or more Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration is added in a vertical downward direction in the vacuum, aiming to generate the same amount of water more than 100 times Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration is further accelerated vertically in the vacuum, and various types of power generation aiming at the same amount of water more than 50 times Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration is further accelerated vertically in the vacuum, and various types of power generation aiming for the same amount of water more than 25 times Energy conservation cycle coalescence engine.   The existing hydroelectric power generation uses a pump (1H) to increase the head by 1,200m + a solar surface heater such as a surface-floating type (2) + additional acceleration of gravity in a vacuum downwards, aiming to generate the same amount of water more than 12 times Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically accelerated, aiming to generate the same amount of water more than 200 times Energy conservation cycle coalescence engine.   For existing hydroelectric power generation with a pump of 1H, increase the drop by 1000m + surface-heating solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, aiming at the same amount of water generation more than 100 times Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with a pump of pump (1H) increased by a drop of 1000m + surface-floor type solar heater (2) + gravity acceleration in a vacuum, vertically accelerated, aiming to generate the same amount of water more than 50 times Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase of drop by 1000m with pumping pump (1H) + surface-heating solar heater (2) + gravitational acceleration in vacuum and various accelerations aiming at power generation more than 25 times the same water volume Energy conservation cycle coalescence engine.   For existing hydroelectric power generation with a pump of 1H, increase the head by 1000m + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically downward, aiming to generate the same amount of water more than 12 times Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration is added in a vertical downward direction in the vacuum, aiming to generate the same amount of water more than 200 times Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration is further accelerated vertically in the vacuum, and various types of power generation aiming for the same amount of water more than 100 times Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + surface-heating solar heater (2) + gravitational acceleration added in vacuum vertically Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration is added in the vertical downward direction, aiming to generate the same amount of water more than 25 times Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration is further accelerated vertically in the vacuum, and various types of power generation aiming at the same amount of water more than 12 times Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum, and vertical acceleration to increase the amount of water more than 200 times the same amount Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically downwards, various types of power generation aiming for the same amount of water more than 100 times Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase of drop by 600m with pump (1H) + surface-floor type solar heater (2) + acceleration of gravity in vacuum, vertical acceleration, various types of power generation aiming at the same amount of water more than 50 times Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically downward, aiming at the same water volume 25 times or more Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in vacuum and various accelerations aiming for the same amount of water more than 12 times Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with a pump (1H) 400m drop + water surface floating type solar heater (2) + gravitational acceleration in vacuum, vertical acceleration, various types aiming at the same amount of water more than 200 times Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with 400m drop by pumping pump (1H) + Solar surface heater (2) such as surface levitation type + Gravity acceleration is further accelerated vertically under vacuum, aiming to generate power more than 100 times the same amount of water Energy conservation cycle coalescence engine.   Existing hydroelectric power generation with 400m drop by pumping pump (1H) + Solar surface heater (2) such as surface levitation type + Gravity acceleration in vacuum is accelerated vertically downward, aiming at power generation more than 50 times the same water volume Energy conservation cycle coalescence engine.   Add 400m drop to existing hydroelectric power generation with pumping pump (1H) + surface-heating solar heater (2) + Gravity acceleration in vacuum is accelerated vertically downward, aiming to generate power more than 25 times the same amount of water Energy conservation cycle coalescence engine.   Add 400m drop with existing pumps (1H) to existing hydropower + Solar surface heater (2) such as surface-floating type + Accelerate gravitational acceleration vertically under vacuum, aiming to generate power more than 12 times the same amount of water Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar surface heater (2) + surface-floating type, etc. + Accelerate gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 200 times or more Various energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 200m or less with pumping pump (1H) + Solar surface heater (2) such as surface-floating type + Accelerate gravity acceleration vertically in the vacuum, aiming for the same amount of water generation more than 100 times Various energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar surface heater (2) such as a surface-floating type + Accelerate gravity acceleration vertically in the vacuum, aiming for the same amount of water generation 50 times or more Various energy conservation cycle coalescence engine.   Increase the drop by 200m or less with a pump (1H) to existing hydroelectric power generation + Solar surface heater (2) with surface levitation, etc. + Gravity acceleration is accelerated vertically downward in the vacuum, aiming for the same amount of water generation more than 25 times Various energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 200m or less with pumping pump (1H) + Solar surface heater (2) such as surface floating type + Gravity acceleration is further accelerated vertically downward in vacuum, aiming for power generation of 12 times or more of the same amount of water Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 1000m + surface-fed solar heater (2) + additional energy in the vacuum to accelerate the gravitational acceleration vertically downward, aiming at the same amount of water generation more than 200 times Conservation cycle coalescence organization.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + surface-floor solar heater (2) + additional energy in the vertical direction to accelerate the gravitational acceleration vertically, aiming to generate the same amount of water more than 100 times Conservation cycle coalescence organization.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + surface-fed solar heater (2) + additional energy that accelerates the gravitational acceleration vertically in the vacuum, aiming to generate power more than 50 times the same amount of water Conservation cycle coalescence organization.   Existing hydroelectric power generation with a pump (1H) increased by a drop of 1000m + surface-fed solar heater (2) + additional gravity acceleration in the vertical direction in the vacuum, various energies aiming for power generation of 25 times the same water volume Conservation cycle coalescence organization.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + surface-floor type solar heater (2) + additional acceleration of gravity acceleration in vacuum, various energy aiming for the same amount of water generation more than 12 times Conservation cycle coalescence organization.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 800m + surface-fed solar heater (2) + additional energy in the vertical direction to accelerate the gravitational acceleration in the vertical direction. Conservation cycle coalescence organization.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 800m + surface-fed solar heater (2) + additional energy in the vacuum to accelerate the gravitational acceleration vertically downward, aiming to generate the same amount of water more than 100 times Conservation cycle coalescence organization.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 800m + surface-fed solar heater (2) + additional energy that accelerates gravitational acceleration vertically in the vacuum, aiming for the same amount of power generation 50 times or more Conservation cycle coalescence organization.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 800m + surface-fed solar heater (2) + additional energy that accelerates the gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation more than 25 times Conservation cycle coalescence organization.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 800m + surface-fed solar heater (2) + additional energy in the vertical direction to accelerate the gravitational acceleration vertically, aiming to generate the same amount of water more than 12 times Conservation cycle coalescence organization.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + surface-fed solar heater (2) + additional energy in the vacuum to accelerate the gravitational acceleration vertically downward, aiming for the same amount of water generation 200 times or more Conservation cycle coalescence organization.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + surface-floor type solar heater (2) + additional gravity acceleration in the vertical direction in the vacuum, various energy aiming at the same amount of water generation more than 100 times Conservation cycle coalescence organization.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + surface-floor solar heater (2) + additional energy to accelerate the gravity acceleration vertically in the vacuum, aiming at the same amount of power generation more than 50 times Conservation cycle coalescence organization.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + surface-floor type solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and various types of energy aiming for power generation of 25 times the same water volume Conservation cycle coalescence organization.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + surface-floor type solar heater (2) + additional energy to accelerate the gravitational acceleration vertically downward in the vacuum, aiming for the same amount of water generation more than 12 times Conservation cycle coalescence organization.   Add 400m drop to existing hydroelectric power generation with pump (1H) + surface floating solar heater (2) + Accelerate gravitational acceleration vertically in vacuum, various energies aiming for power generation more than 200 times the same water volume Conservation cycle coalescence organization.   Add 400m drop to existing hydroelectric power generation by pumping pump (1H) + surface-floor solar heater (2) + Accelerate gravitational acceleration vertically in vacuum, and various types of energy aiming to generate power more than 100 times the same amount of water Conservation cycle coalescence organization.   Add 400m drop to existing hydroelectric power by pumping pump (1H) + surface-floor solar heater (2) + additional energy in vertical direction to accelerate gravity acceleration in the vertical direction, aiming at power generation more than 50 times the same water volume Conservation cycle coalescence organization.   Add 400m drop to existing hydroelectric power generation by pumping pump (1H) + surface floating solar heater (2) + Accelerate gravity acceleration vertically in vacuum, various energy aiming to generate power more than 25 times the same amount of water Conservation cycle coalescence organization.   Add 400m drop to existing hydroelectric power generation by pumping pump (1H) + surface floating solar heater (2) + additional energy in vertical direction to accelerate the gravitational acceleration vertically and increase the amount of water by 12 times or more Conservation cycle coalescence organization.   For existing hydroelectric power generation, increase the drop by 200m or less with pumping pump (1H) + surface floating solar heater (2) + additional acceleration of gravity acceleration in vacuum vertically, aiming to generate the same amount of water more than 200 times Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the head by 200m or less with a pump (1H) + surface-floor solar heater (2) + additional acceleration of gravity acceleration in the vacuum downward, aiming at the same amount of water generation more than 100 times Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + surface-floor solar heater (2) + additional acceleration of gravity acceleration in vacuum vertically, aiming at the same amount of power generation 50 times or more Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + surface-floor solar heater (2) + additional acceleration in the vertical direction in vacuum, aiming to generate the same amount of water more than 25 times Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming to generate the same amount of water more than 12 times Energy conservation cycle coalescence engine.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 800m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a surface-expanding solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and the vertical acceleration is accelerated downward. Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a surface-expanding solar heater (2) with a vaporization explosive force of around 374 degrees + gravity acceleration in a vacuum in the vertical direction, and the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a surface-expanding solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in vacuum, and the acceleration of gravity in the vertical downward direction, the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration to reduce the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a surface-expanding solar heater (2), the vaporization explosive force of around 374 degrees + the acceleration of gravity in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floating solar heater (2) that accelerates the vaporization force around 374 degrees + the acceleration of gravity in a vacuum and accelerates the gravity downward in the vertical direction. Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floor solar heater (2) that accelerates the vaporization force around 374 ° C and accelerates the gravitational acceleration vertically in a vacuum to achieve the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescing engines aiming for power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescing engine aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + accelerating gravitational acceleration vertically in a vacuum, with the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + accelerating the gravitational acceleration in a vacuum vertically, Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 300 degree or more vaporization explosive force with a surface-floor solar heater (2) + Gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 300 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 300 degree or more vaporization explosive force with a surface-floor type solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + 300 ° C or more vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + surface-expanding solar heater (2), vaporization explosive force of 300 degrees or more + additional acceleration of gravity in vacuum, vertically below 25% Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 300 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface surfacing solar heater (2) with a vaporization explosive force of more than 300 degrees + gravity acceleration in a vacuum, vertically accelerated, and the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface-exposure solar heater (2) with a vaporization explosive force of 300 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + further accelerate the gravitational acceleration vertically in the vacuum, the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + further accelerate the gravitational acceleration vertically in the vacuum, the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation is increased by 400m with pumping pump (1H) + vaporization explosive force of 300 degrees or more with surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + more than 300 degrees of vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 300 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + 300 degree or more vaporization explosive force with a surface floating solar heater (2) + Gravitational acceleration is further accelerated vertically under vacuum, and the same amount of water is 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) increases the vaporization explosive force of 300 degrees or more + further accelerates the gravitational acceleration in a vacuum, and the same amount of water Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines aiming for power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engine aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a surface surfacing solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) increases the vaporization explosive force of 200 degrees or more + further accelerates the gravitational acceleration vertically in the vacuum, with the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward to achieve the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation with a pumping pump (1H) increased by 1000m + water-floating solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum further accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 200 degree or more vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + more than 200 degrees of vaporization explosive force with a surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + more than 200 degrees of vaporization explosive power with a surface-floor solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation is increased by 800m by pumping pump (1H) + vaporization explosive force of 200 degrees or more by surface-floor solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 600m and a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more. Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a vaporization explosive force of 200 degrees or more with a surface floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + accelerating gravitational acceleration vertically in a vacuum, Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + accelerating the gravitational acceleration in a vacuum vertically, Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with an evaporation explosive force of 200 degrees or more + Gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes explosive force of 200 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward to achieve the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that evaporates more than 200 degrees + a gravitational acceleration in a vacuum and accelerates vertically downward to achieve the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescing engines aiming for power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescing engine aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation is increased by 1000m with a pumping pump (1H) + 200 degree or less vaporization explosive force with a surface-floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less + a gravitational acceleration in a vacuum that is accelerated vertically downward to the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m and a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less. Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + vaporization explosive force of 200 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a surface floating solar heater (2) + a gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floor solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + additional acceleration of gravity in a vacuum in the vertical direction, the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floating solar heater (2) that vaporizes less than 200 ° C + accelerates the gravitational acceleration vertically in a vacuum. Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes less than 200 degrees + gravity acceleration in a vacuum and further accelerates the gravitational acceleration vertically downward to achieve the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines aiming for power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engine aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 1000m with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floor solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum and a vertical acceleration of 25%. Various energy conservation cycle coalescing engines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Vaporization explosive force of 100 degrees or less with surface floating solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates vertically down to the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum that is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes and explodes below 100 degrees + accelerates the gravitational acceleration vertically in a vacuum, with the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 200 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 100 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescence engine aiming at power generation more than 50 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines aiming for power generation more than 25 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engine aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + further accelerates the gravitational acceleration in a vacuum, vertically accelerating by 200 times the same amount of water Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased with a pumping pump (1H) + a vaporization explosive force is increased to a maximum with a surface-floating solar heater (2) + gravity acceleration is accelerated vertically downward in a vacuum, and the same amount of water is increased by 100 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force is increased to a maximum by a surface-floating solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is multiplied by 50 Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force. Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased with a pumping pump (1H) + a vaporization explosive force is increased to a maximum with a surface-floating solar heater (2) + gravity acceleration is accelerated vertically downward in a vacuum, and the same amount of water is 12 times Various energy conservation cycle coalescing engines aiming at power generation.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H), the vaporization explosive power is maximized with a surface-floor solar heater (2), and the acceleration of gravity is further accelerated vertically in the vacuum to increase the same amount of water by 200 times. Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + maximum increase of vaporization explosive power by surface floating solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration, 100 times the same amount of water Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + maximum increase of vaporization explosive power by surface floating solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration, 50 times the same amount of water Various energy conservation cycle coalescing engines aiming at power generation.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H), the vaporization explosive power is increased with the surface-floating solar heater (2), and the acceleration of gravity is further accelerated in the vertical direction in a vacuum to increase the same amount of water by 25 times. Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + the surface-exposure solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 12 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force is increased to a maximum by a surface-floating solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum, and the same amount of water is 200 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is increased by 100 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in a vacuum, and the same amount of water is 50 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by the pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 25 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + the surface-floating solar heater (2) is increased to the maximum vaporization explosive force + gravitational acceleration is further accelerated in the vertical direction in vacuum, and the same amount of water is 12 times Various energy conservation cycle coalescing engines aiming at power generation.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + Accelerates gravitational acceleration vertically in the vacuum, and the same amount of water 200 times Various energy conservation cycle coalescing engines aiming at power generation.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase vaporization power to maximum with surface floating solar heater (2) + Accelerate gravitational acceleration vertically in vacuum, 100 times the same water volume Various energy conservation cycle coalescing engines aiming at power generation.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase to maximum vaporization explosive power with surface floating solar heater (2) + Accelerate gravitational acceleration in vacuum vertically and increase water volume by 50 times Various energy conservation cycle coalescing engines aiming at power generation.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + Accelerates gravitational acceleration vertically in the vacuum and increases the same amount of water by 25 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a vaporization explosive power is increased to a maximum by a surface floating solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 12 times Various energy conservation cycle coalescing engines aiming at power generation.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum, vertically accelerating the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum, vertically accelerating the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   A solar power augmentation suspension bridge (2b) and a solar heater (2) in the existing hydroelectric power generation + Additional energy conservation cycle coalescence engine that accelerates gravitational acceleration vertically downward in the vacuum and aims to generate power more than 200 times the same amount of water.   An existing hydroelectric power generation suspension bridge (2b), solar heater (2) + various energy conservation cycle coalescence engines that aim to generate power more than 100 times the same amount of water by accelerating gravitational acceleration vertically downward in vacuum.   A solar power augmentation suspension bridge (2b) and a solar heater (2) in the existing hydroelectric power generation + Accelerating gravitational acceleration vertically in the vacuum, various energy conservation cycle coalescence engines aiming at the same amount of water generation 50 times or more.   The existing hydroelectric power generation suspension bridge (2b), solar heater (2) + various energy conservation cycle coalescence engines that aim to generate more than 25 times the same amount of water by accelerating gravitational acceleration vertically in the vacuum.   A solar energy augmentation suspension bridge (2b) and solar heater (2) + additional acceleration of gravitational acceleration in the vertical direction in the existing hydroelectric power generation, and various energy conservation cycle coalescence engines aiming at the same amount of water generation 12 times or more.   A solar power augmentation suspension bridge (2b) and a solar heater (2) in the existing hydroelectric power generation + Additional energy conservation cycle coalescence engine that accelerates gravitational acceleration vertically downward in the vacuum and aims to generate power more than 200 times the same amount of water.   An existing hydroelectric power generation suspension bridge (2b), solar heater (2) + various energy conservation cycle coalescence engines that aim to generate power more than 100 times the same amount of water by accelerating gravitational acceleration vertically downward in vacuum.   A solar power augmentation suspension bridge (2b) and a solar heater (2) in the existing hydroelectric power generation + Accelerating gravitational acceleration vertically in the vacuum, various energy conservation cycle coalescence engines aiming at the same amount of water generation 50 times or more.   The existing hydroelectric power generation suspension bridge (2b), solar heater (2) + various energy conservation cycle coalescence engines that aim to generate more than 25 times the same amount of water by accelerating gravitational acceleration vertically in the vacuum.   A solar energy augmentation suspension bridge (2b) and solar heater (2) + additional acceleration of gravitational acceleration in the vertical direction in the existing hydroelectric power generation, and various energy conservation cycle coalescence engines aiming at the same amount of water generation 12 times or more.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + Accelerating gravity acceleration in vacuum vertically and saving various energy for the same amount of water more than 200 times Cycle coalescence engine.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + Accelerating gravity acceleration vertically in the vacuum, various energy storage aiming at power generation more than 100 times the same water volume Cycle coalescence engine.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward, and various energy conservation aiming at power generation more than 50 times the same water volume Cycle coalescence engine.   Existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + Accelerating gravity acceleration in vacuum vertically and saving various energy for the same water volume 25 times or more Cycle coalescence engine.   Existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + Accelerating gravity acceleration in vacuum vertically, saving various energy aiming at power generation more than 12 times the same water volume Cycle coalescence engine.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same water volume 200 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 300 degrees or more + Gravitational acceleration is accelerated vertically downward in vacuum, the same amount of water 200 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) evaporating explosive force of 200 degrees or more + accelerating gravitational acceleration vertically in vacuum, same water volume 200 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same water volume is 200 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 100 times Various energy conservation cycle coalescing engines aiming at power generation.   Add to existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2), vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum, vertically accelerated, 100 times the same water volume Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same water volume 50 times Various energy conservation cycle coalescing engines aiming at power generation.   Add to existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 25 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) evaporating explosive force of 200 degrees or more + Accelerating gravitational acceleration vertically in vacuum, same water volume 25 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 12 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + Gravity acceleration is accelerated vertically downward in vacuum, the same amount of water 12 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force below 200 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water 12 times Various energy conservation cycle coalescing engines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same maximum water volume Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward, and the same water maximum power generation Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and the same water maximum power generation Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same water maximum power generation Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward to generate the same maximum amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, increase the head by pumping pump (1H) + solar heating (2b) such as suspension bridge (2b) + solar heater (2) + add gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines aimed at.   For existing hydroelectric power generation, increase the head by pumping pump (1H) + solar heating (2b), such as suspension bridge (2b) + solar acceleration (2) + gravity acceleration in vacuum is accelerated vertically downward to increase the amount of generated water by 100 times or more Various energy conservation cycle coalescing engines aimed at.   For existing hydroelectric power generation, increase the head with a pump (1H) + solar heating (2b) such as a solar thermal expansion suspension bridge (2b) + add gravity acceleration in the vacuum vertically in the vacuum, and generate the same amount of water more than 50 times Various energy conservation cycle coalescing engines aimed at.   For existing hydroelectric power generation, increase the head with a pump (1H) + Solar heating (2b) such as a solar heat increase suspension bridge (2b) + Accelerate gravity acceleration in the vacuum vertically, and generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines aimed at.   For existing hydroelectric power generation, increase the head with a pump (1H) + Solar heating (2b) such as a suspension bridge (2b) + Addition of acceleration of gravity in vacuum + Accelerate the gravitational acceleration vertically, and generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines aimed at.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + solar heat increase suspension solar bridge (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 200 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation by pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) etc. Solar power heater (2) + Gravity acceleration is further accelerated vertically downward in vacuum, same amount of water more than 100 times Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation by pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate 50% or more of the same amount of water Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 25 times Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + solar heating increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of water generated is more than 12 times the same. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravity acceleration is further accelerated downward in the vacuum, and the same amount of water is generated more than 200 times Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation with a pump (1H) increased by 800m + solar heat increase suspension solar bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy conservation cycle coalescence engine aiming for.   Add to existing hydroelectric power generation by 800m drop with pump (1H) + Solar heat increase suspension bridge (2b), etc. Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, the same amount of water more than 50 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + solar heating (2b) such as suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 25 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar heating (2b) such as a solar thermal expansion suspension bridge (2b) + gravity acceleration in the vacuum is further accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescence engine aiming for.   For existing hydroelectric power generation, the pump is increased by 600m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 200 times Various energy conservation cycle coalescence engine aiming for.   For existing hydroelectric power generation, increase in head by 600m with pump (1H) + solar heating (2b) such as suspension bridge (2b) + additional solar acceleration (2) + vacuum acceleration in the vertical direction, the same amount of water more than 100 times Various energy conservation cycle coalescence engine aiming for.   For existing hydroelectric power generation, a 600m drop with a pump (1H) + solar heating (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum, vertically generating the same amount of water 50 times or more Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation with a pump (1H) with a drop of 600m + solar heating increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescence engine aiming for.   For existing hydroelectric power generation, a 600m drop with a pump (1H) + Solar heating (2b) such as a suspension bridge (2b) + Additional acceleration of gravity in the vacuum vertically in the vacuum to increase the amount of water more than 12 times the same amount of water Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation with a pump (1H) increased by 400m + solar heating increased suspension solar bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of generated water is more than 200 times the same. Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescence engine aiming for.   Existing hydroelectric power generation with pumping pump (1H) increased by 400m + solar heat increase suspension bridge (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 25 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescence engine aiming for.   For existing hydroelectric power generation, increase by 200m or less with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + additional acceleration of gravity acceleration in vacuum, generating more than 100 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   In existing hydroelectric power generation, increase by 200m or less with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + additional acceleration of gravity acceleration in vacuum, generating more than 25 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + acceleration of gravitational acceleration downward in vacuum to generate more than 12 times the same amount of water Various energy conservation cycle coalescence engines aiming for quantity.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines aimed at.   Existing hydroelectric power generation with pumping pump (1H) increased by 1000m + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy conservation cycle coalescing engines aimed at.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity in the vacuum downward in the vertical direction. Various energy conservation cycle coalescing engines aimed at.   Existing hydroelectric power generation with pumping pump (1H) 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines aimed at.   Existing hydroelectric power generation with pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to increase the amount of water generation by 12 times or more. Various energy conservation cycle coalescing engines aimed at.   Add 800m drop to the existing hydroelectric power generation pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 200 times Various energy conservation cycle coalescing engines aimed at.   Add 800m drop with existing pump for pumping water (1H) + Suspension bridge (2b) Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum to increase the amount of generated water by 100 times or more Various energy conservation cycle coalescing engines aimed at.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m increase + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum downwards, the same amount of water more than 50 times the amount of power generation Various energy conservation cycle coalescing engines aimed at.   In existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines aimed at.   In existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines aimed at.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of generated water is more than 200 times the same. Various energy conservation cycle coalescing engines aimed at.   Add 600m drop to existing hydroelectric power generation with pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration in vacuum is accelerated vertically downward to increase power generation by 100 times or more. Various energy conservation cycle coalescing engines aimed at.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated downward in the vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines aimed at.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines aimed at.   Existing hydroelectric power generation with a pumping pump (1H) + 600m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines aimed at.   Existing hydroelectric power generation with a pump (1H) with a head drop of 400m + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum, vertically generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines aimed at.   In existing hydroelectric power generation with a pumping pump (1H) 400m head drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy conservation cycle coalescing engines aimed at.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines aimed at.   Existing hydroelectric power generation with a pumping pump (1H) 400m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines aimed at.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines aimed at.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 200 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum downward, the same amount of water more than 100 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, the same amount of water more than 50 times the amount of power generation Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 25 times Various energy conservation cycle coalescence engine aiming for.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar thermal increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 12 times Various energy conservation cycle coalescence engine aiming for.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescence engine aiming at power generation more than 200 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescence engine aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines aiming for power generation more than 50 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines that aim to generate electricity more than 25 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescence engines aiming at power generation more than 12 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescence engine aiming at power generation more than 200 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescence engine aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines aiming for power generation more than 50 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines that aim to generate electricity more than 25 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescence engines aiming at power generation more than 12 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated in the vertical direction in vacuum Various energy conservation cycle coalescence engine aiming at power generation more than 200 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescence engine aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines aiming for power generation more than 50 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines that aim to generate electricity more than 25 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescence engines aiming at power generation more than 12 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescence engine aiming at power generation more than 200 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescence engine aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines aiming for power generation more than 50 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines that aim to generate electricity more than 25 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescence engines aiming at power generation more than 12 times the amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydropower generation. + Solar heater (2) + Gravity acceleration is further accelerated vertically downward in the vacuum, aiming to generate power more than 200 times the same amount of water. Energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydropower generation. + Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, and various types of power generation aiming at the same amount of water more than 100 times. Energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation. + Solar heater (2) + Gravity acceleration is further accelerated vertically downward in the vacuum, aiming at the amount of power generation more than 50 times the same amount of water. Energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation. + Solar heater (2) + Gravity acceleration is further accelerated vertically downward in the vacuum, and various types of power generation aiming at the same water volume 25 times or more Energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydropower generation. + Solar heater (2) + Gravitational acceleration is further accelerated vertically downward in the vacuum, and various types of power generation aiming at 12 times the same water volume Energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydropower generation. + Solar heater (2) + Gravity acceleration is further accelerated vertically downward in the vacuum, aiming to generate power more than 200 times the same amount of water Energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydropower generation. + Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, and various types of power generation aiming at the same amount of water more than 100 times. Energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation. + Solar heater (2) + Gravity acceleration is further accelerated vertically downward in the vacuum, aiming at the amount of power generation more than 50 times the same amount of water. Energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation. + Solar heater (2) + Gravity acceleration is further accelerated vertically downward in the vacuum, and various types of power generation aiming at the same water volume 25 times or more Energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydropower generation. + Solar heater (2) + Gravitational acceleration is further accelerated vertically downward in the vacuum, and various types of power generation aiming at 12 times the same water volume Energy conservation cycle coalescence engine.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought perpendicular to sunlight + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, same water volume 200 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) + gravitational acceleration is accelerated vertically downward in vacuum, the same amount of water is 100 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is moved perpendicular to sunlight + solar heater (2) + gravitational acceleration is accelerated vertically downward in the vacuum, the same amount of water 50 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water is 25 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is moved perpendicular to sunlight + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 12 times Various energy conservation cycle coalescing engines aiming at power generation.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water more than 100 times.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water more than 100 times.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water more than 100 times.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water more than 100 times.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water more than 100 times.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that accelerate and aim for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that accelerate and aim for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that accelerate and aim for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines that accelerate and aim for power generation of 12 times or more of the same amount of water.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that accelerate and aim for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines that accelerate and aim for the same maximum water generation.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines that accelerate and aim for the same maximum water generation.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines that accelerate and aim for the same maximum water generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy storage cycle coalescing engines that accelerate and aim for the same maximum water generation.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy storage cycle coalescing engines that accelerate and aim for the same maximum water generation.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy conservation cycle coalescing engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   Combined with existing hydroelectric power generation by a pumping pump (1H) with a drop of 1000m + solar heater (2) + acceleration of gravity in vacuum, vertically accelerated, and combined with various energy conservation cycles aiming for power generation of the same amount of water more than 100 times organ.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same water volume.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines aiming at power generation with the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescence engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescence engine that accelerates vertically downward and aims to generate power more than 200 times the same amount of water.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation more than 100 times.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 50 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescence engine that accelerates vertically downward and aims to generate power more than 200 times the same amount of water.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation more than 100 times.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 50 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescence engine that accelerates vertically downward and aims to generate power more than 200 times the same amount of water.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation more than 100 times.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 50 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescence engine that accelerates vertically downward and aims to generate power more than 200 times the same amount of water.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation more than 100 times.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 50 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, aiming for the same amount of water generation 200 times or more Various energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, aiming to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engine.   Raise and lower the solar thermal suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 50 times the same water volume Various energy conservation cycle coalescence engine.   Raise the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with left and right with the suspension + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 25 times the same water volume Various energy conservation cycle coalescence engine.   Raise and lower the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 12 times or more Various energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, aiming for the same amount of water generation 200 times or more Various energy conservation cycle coalescence engine.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, aiming to generate the same amount of water more than 100 times Various energy conservation cycle coalescence engine.   Raise and lower the solar thermal suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 50 times the same water volume Various energy conservation cycle coalescence engine.   Raise the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with left and right with the suspension + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 25 times the same water volume Various energy conservation cycle coalescence engine.   Raise and lower the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 12 times or more Various energy conservation cycle coalescence engine.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 200 Various energy conservation cycle coalescing engines aiming at power generation more than double.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) is moved left and right and up and down with a lifting tool + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   For existing hydropower, lift pump (1H) + solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 50 Various energy conservation cycle coalescing engines aiming at power generation more than double.   For existing hydroelectric power generation, the pump (1H) + solar thermal suspension bridge (2b) is moved up and down with the hanger + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, the same amount of water 25 Various energy conservation cycle coalescing engines aiming at power generation more than double.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is moved left and right and up and down with a lifting tool + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 12 Various energy conservation cycle coalescing engines aiming at power generation more than double.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is an engine that combines various energy conservation cycles, aiming to generate more than 200 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles, aiming to generate more than 200 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles, aiming to generate more than 200 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles, aiming to generate more than 200 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Accelerating to the same energy storage cycle coalescence engine aiming at the amount of power generation more than 100 times the same water amount.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Accelerating to the same energy storage cycle coalescence engine aiming at the amount of power generation more than 100 times the same water amount.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Accelerating to the same energy storage cycle coalescence engine aiming at the amount of power generation more than 100 times the same water amount.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Accelerating to the same energy storage cycle coalescence engine aiming at the amount of power generation more than 100 times the same water amount.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Accelerating to the same energy storage cycle coalescence engine aiming at the amount of power generation more than 100 times the same water amount.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is an engine that combines various energy conservation cycles that aim to generate more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles that aim to generate more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles that aim to generate more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles that aim to generate more than 50 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles that aim to generate more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is an engine that combines various energy conservation cycles that aim to generate more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles that aim to generate more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles that aim to generate more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles that aim to generate more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Accelerating to various energy storage cycle coalescing engines aiming for power generation of 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Accelerating to various energy storage cycle coalescing engines aiming for power generation of 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Accelerating to various energy storage cycle coalescing engines aiming for power generation of 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Accelerating to various energy storage cycle coalescing engines aiming for power generation of 12 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Accelerating to various energy storage cycle coalescing engines aiming for power generation of 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is an engine that combines various energy conservation cycles, aiming for the same maximum water generation amount.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles, aiming for the same maximum water generation amount.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles, aiming for the same maximum water generation amount.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles, aiming for the same maximum water generation amount.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is an engine that combines various energy conservation cycles, aiming for the same maximum water generation amount.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same water volume.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescing engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescing engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum Various energy conservation cycle coalescence engines aiming for power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescing engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum Various energy conservation cycle coalescence engines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescence engines aiming for power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescing engines aiming for power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescence engines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescence engine aiming at the power generation amount more than 200 times the same water amount.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescence engine aiming at the power generation amount more than 100 times the same water amount.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescence engine aiming at the power generation amount more than 50 times the same water amount.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescence engine aiming at the power generation amount more than 25 times the same water amount.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescence engine aiming at the power generation amount more than 12 times the same water amount.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescing engines aiming for power generation of 12 times or more of the same water volume.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy conservation cycle coalescence engines aiming for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines aiming for power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation with the same amount of water more than 200 times.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of 100 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming for power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescing engines aiming for power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines aiming at power generation of 12 times or more of the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescence engine that accelerates the acceleration vertically downward and aims for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 25 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engine that accelerates the acceleration vertically downward and aims for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 25 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescence engine that accelerates the acceleration vertically downward and aims for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 25 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engine that accelerates the acceleration vertically downward and aims for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 25 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engine that accelerates the acceleration vertically downward and aims for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 25 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool. Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool. Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 200 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 50 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines that aim to generate more than 12 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an energy conservation cycle coalescence engine that aims to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an engine that unites various energy conservation cycles that accelerates vertically downward and aims to generate the same amount of water more than 50 times.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum Accelerating vertically downward, various energy storage cycle coalescing engines aiming for power generation more than 25 times the same water volume.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an engine that integrates various energy conservation cycles that aim to generate more than 12 times the same amount of water.   Additional energy storage cycle coalescence engine with multiple stages of opposed series full blade impeller water turbines aiming to generate electricity more than 200 times the same water amount by accelerating gravitational acceleration in vacuum to existing hydroelectric power generation in vacuum.   Additional energy storage cycle coalescence engine with multi-stage opposed series full blade impeller water turbines aiming to generate more than 100 times the same amount of water by accelerating gravitational acceleration in vacuum in addition to existing hydroelectric power generation.   Additional energy storage cycle coalescence engine with multiple stages of opposed series full blade impeller water turbines aiming to generate more than 50 times the same amount of water by accelerating gravitational acceleration in vacuum in addition to existing hydroelectric power generation.   Additional energy storage cycle coalescence engine with multiple stages of opposed series full blade impeller water turbines aiming to generate electricity more than 25 times the same water amount by accelerating gravitational acceleration in vacuum to existing hydroelectric power generation.   Additional energy storage cycle coalescence engine with multiple stages of opposed series full blade impeller water turbines aiming to generate electricity more than 12 times the same water amount by accelerating gravitational acceleration in vacuum in addition to existing hydroelectric power generation.   Solar energy heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum vertically Various energy with multi-stage opposed series full blade impeller water turbines aiming at the same amount of water generation 200 times or more Conservation cycle coalescence organization.   Solar power heater (2) for existing hydropower generation + Gravitational acceleration added in vacuum Accelerating vertically downward, with the same amount of water more than 100 times the amount of power generated by opposing series full blade impeller water turbines in multiple stages Conservation cycle coalescence organization.   Solar energy heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum vertically, and various energies equipped with multi-stage opposed series full blade impeller water turbines aiming at the same amount of power generation 50 times or more Conservation cycle coalescence organization.   Solar energy heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum vertically Various energy with multi-stage opposed series full blade impeller water turbine aiming at power generation more than 25 times the same water volume Conservation cycle coalescence organization.   Solar energy heater (2) for existing hydroelectric power generation + Gravitational acceleration added in vacuum Vertically accelerating vertically downward, various energies equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation of 12 times or more Conservation cycle coalescence organization.   Solar energy heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum vertically Various energy with multi-stage opposed series full blade impeller water turbines aiming at the same amount of water generation 200 times or more Conservation cycle coalescence organization.   Solar energy heater (2) for existing hydroelectric power generation + Gravitational acceleration added in vacuum Accelerating vertically downward, various energies with opposed series full blade impeller water turbines in multiple stages aiming for the same amount of water generation 100 times or more Conservation cycle coalescence organization.   Solar energy heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum vertically, and various energies equipped with multi-stage opposed series full blade impeller water turbines aiming at the same amount of power generation 50 times or more Conservation cycle coalescence organization.   Solar energy heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum vertically Various energy with multi-stage opposed series full blade impeller water turbine aiming at power generation more than 25 times the same water volume Conservation cycle coalescence organization.   Solar energy heater (2) for existing hydroelectric power generation + Gravitational acceleration added in vacuum Vertically accelerating vertically downward, various energies equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation of 12 times or more Conservation cycle coalescence organization.   Existing hydroelectric power generation pump (1H) + solar heater (2) + Accelerating gravity acceleration in a vacuum, opposed series full-blade propulsion turbine water turbine aiming at power generation more than 200 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation pump (1H) + solar heater (2) + gravity acceleration in a vacuum is added in the vertical downward direction. Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation pump (1H) + solar heater (2) + gravity acceleration in a vacuum is added to accelerate vertically downward, and an opposed series full blade impeller water turbine that aims at the same amount of power generation 50 times or more Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation pump (1H) + solar heater (2) + gravity acceleration in vacuum added vertically downward, opposed series full blade impeller water turbine aiming at power generation more than 25 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation pump (1H) + solar heater (2) + gravity acceleration in a vacuum is added to accelerate vertically downward, and an opposed series full blade impeller water turbine aiming at power generation more than 12 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, facing the same amount of water more than 200 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, facing the same amount of water more than 200 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + Gravitational acceleration in vacuum is accelerated vertically downward, facing the same amount of water more than 200 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 200 degrees or less + gravity acceleration in a vacuum, vertically opposite, aiming at power generation of the same water volume 200 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Facing the existing hydroelectric power generation with a pumping pump (1H) + solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in a vacuum, vertically downwards, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power around 374 degrees + gravity acceleration in a vacuum, facing vertically downwards, aiming to generate power more than 100 times the same amount of water Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward, facing the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Opposed to existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum, vertically downwards, aiming for the same amount of water generation 100 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, facing the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Facing the existing hydroelectric power generation with a pumping pump (1H) + solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in a vacuum, vertically downward, facing the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, facing the same amount of water 50 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum, opposite vertically aiming for power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Opposite the existing hydroelectric power generation by pumping pump (1H) + solar heater (2), vaporization explosive power of 200 degrees or more + gravity acceleration in vacuum, vertically downwards, aiming at the same amount of power generation 50 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 200 degrees or less + gravity acceleration in a vacuum, vertically downwards, opposite power aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Facing the existing hydroelectric power generation with a pumping pump (1H) + solar heater (2), vaporization explosive power of 100 degrees or less + additional acceleration in the vertical direction in the vacuum, aiming to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power around 374 degrees + gravity acceleration in vacuum, vertically downward, facing the same amount of water more than 25 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporizing explosive power of 300 degrees or more + Gravitational acceleration in vacuum is further accelerated vertically downward, facing the same amount of water more than 25 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Opposite the existing hydroelectric power generation by pumping pump (1H) + solar heater (2), vaporization explosive power of 200 degrees or more + gravitational acceleration in vacuum, vertically accelerating, aiming for power generation of more than 25 times the same water volume Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, vertically downwards, opposite aiming to generate power more than 25 times the same amount of water Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Facing the existing hydroelectric power generation by using a pumping pump (1H) + solar heater (2), vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum, vertically downwards, optimizing the power generation amount by 25 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power around 374 degrees + gravity acceleration in vacuum, facing vertically downward, aiming for power generation of 12 times or more of the same amount of water Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporization explosive power of 300 degrees or more + Gravitational acceleration in vacuum is further accelerated vertically downward, facing the same amount of water more than 12 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporization explosive power of 200 degrees or more + Gravitational acceleration in vacuum is further accelerated vertically downward, facing the same amount of water more than 12 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporization explosive power of 200 degrees or less + Gravitational acceleration in vacuum is further accelerated vertically downward, facing the same amount of water more than 12 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Facing the existing hydroelectric power generation by using a pumping pump (1H) + solar heater (2), vaporization explosive force of 100 degrees or less + additional acceleration of gravity in the vacuum downwards, aiming for the same amount of water generation 12 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, opposing series all aiming at the same water maximum power generation Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward, opposing series all aiming at the same water maximum power generation Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydroelectric power generation with pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum further accelerated vertically downward, opposing series all aiming at the same water maximum power generation Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydropower generation Pumping pump (1H) + Solar power heater (2) vaporization explosive force of 200 degrees or less + Gravitational acceleration in vacuum is further accelerated vertically downward, opposing series all aiming at the same water maximum power generation Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydropower generation Pumping pump (1H) + Solar power heater (2) vaporization explosive force of 100 degrees or less + Gravitational acceleration in vacuum is further accelerated vertically downward, opposing series all aiming at the same water volume maximum power generation Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Increased head with pump (1H) in existing hydroelectric power generation + Accelerated gravity acceleration in a vacuum, and various types of multi-stage opposed series full blade impeller water turbines aiming to generate power more than 200 times the same amount of water Energy conservation cycle coalescence engine.   Increased head with pump (1H) in existing hydropower generation + Gravity acceleration added in vacuum, vertically accelerated, various series of opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water Energy conservation cycle coalescence engine.   Increased head with pump (1H) in existing hydroelectric power generation + Accelerated gravitational acceleration in vacuum, various types of multi-stage opposed series full blade impeller water turbines aiming for power generation more than 50 times the same water volume Energy conservation cycle coalescence engine.   Increased head by pumping pump (1H) to existing hydroelectric power generation + Accelerating gravity acceleration in vacuum vertically, various types of multi-stage opposed series full blade impeller water turbines aiming for power generation more than 25 times the same water volume Energy conservation cycle coalescence engine.   Increased head by pumping pump (1H) to existing hydroelectric power generation + Accelerating gravity acceleration in vacuum vertically, various types of multi-stage opposed series full blade impeller water turbines aiming at the same amount of water generation 12 times or more Energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by 1000m with a pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at the same amount of water generation 200 times or more Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + gravity acceleration in a vacuum is accelerated vertically downward, and the opposed series full blade impeller water turbines aiming at the same amount of power generation 100 times or more are provided in multiple stages Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by a drop of 1000m with a pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at power generation more than 50 times the same amount of water Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation with a pump pump (1H) increased by a drop of 1000m + acceleration of gravity in vacuum was further accelerated vertically downward, and opposed series full blade impeller water turbines were installed in multiple stages aiming for the same amount of water generation 25 times or more Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by 1000m with a pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at the same amount of water generation 12 times or more Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + gravity acceleration in vacuum is accelerated vertically downward, and opposing series full blade impeller water turbines aiming at power generation of 200 times or more are provided in multiple stages Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + gravity acceleration in a vacuum is accelerated vertically downward, and opposed series full blade impeller water turbines are provided in multiple stages aiming at the same amount of power generation more than 100 times Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + gravity acceleration in vacuum is accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at power generation of 50 times or more. Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + gravity acceleration in vacuum is accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at power generation of 25 times or more. Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + gravity acceleration in vacuum is accelerated vertically downward, and opposed series full blade impeller water turbines aiming at power generation more than 12 times the same water volume are provided in multiple stages Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 600m with a pump (1H) and the acceleration of gravity is further reduced in the vertical direction in the vacuum, and the opposed series full blade impeller water turbines aiming at power generation of 200 times or more are provided in multiple stages. Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by 600m with a pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and opposing series full blade impeller water turbines aiming at power generation more than 100 times are provided in multiple stages Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + gravity acceleration in vacuum is accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at the same amount of power generation 50 times or more Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by 600m with a pump (1H) + gravity acceleration in vacuum is added vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at power generation more than 25 times the same water volume Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at the same amount of water generation 12 times or more. Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + gravity acceleration in a vacuum is accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at the same amount of power generation 200 times or more Various energy conservation cycle coalescence engine.   Various energy conservation cycle coalescence engines aiming at power generation more than 100 times the same water quantity by accelerating gravitational acceleration vertically downward in the vacuum by adding a 400m drop with a pump (1H) to existing hydroelectric power generation.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + gravity acceleration in vacuum is accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at power generation more than 50 times the same water volume Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 400m with a pumping pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and opposed series full blade impeller water turbines are provided in multiple stages aiming at power generation more than 25 times the same water volume Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 400m with a pump (1H) and the acceleration of gravity is further increased in the vertical direction in the vacuum, and the opposed series full blade impeller water turbines aiming at power generation of 12 times or more are provided in multiple stages. Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and opposed series full blade impeller water turbines are installed in multiple stages aiming at the same amount of water generation 200 times or more Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + gravity acceleration is further increased in the vertical direction in a vacuum, and opposed series full blade impeller water turbines are installed in multiple stages aiming at the same amount of water generation 100 times or more. Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + Gravity acceleration is further increased in the vacuum in the vertical direction, and opposed series full blade impeller water turbines are installed in multiple stages aiming at the same amount of water generation 50 times or more. Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + gravity acceleration is further increased in the vertical direction in a vacuum, and opposing series full blade impeller water turbines aiming at power generation more than 25 times are provided in multiple stages. Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and opposed series full blade impeller water turbines aiming at power generation more than 12 times are provided in multiple stages Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + solar heater (2) + additional gravity acceleration in a vacuum, opposing series all blades aiming at the same amount of water more than 200 times Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation with a pump pump (1H) increased by 1000m + solar heater (2) + additional gravity acceleration in vacuum, vertically accelerating gravitational acceleration, opposed series all blades aiming at power generation of 100 times or more Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydropower generation with a pump pump (1H) increased by a drop of 1000m + solar heater (2) + additional acceleration in gravitational acceleration in a vacuum, opposed series all blades aiming at the same amount of power generation 50 times or more Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydropower generator with a pump pump (1H) with a drop of 1000m + solar heater (2) + Accelerating gravity acceleration in a vacuum vertically, opposing series full blades aiming for power generation of more than 25 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation with a pumping pump (1H) increased by 1000m + solar heater (2) + additional gravity acceleration in vacuum, vertically accelerating gravitational acceleration, opposed series all blades aiming at power generation more than 12 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, opposed series all blades aiming at power generation of 200 times the same amount of water Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydropower generator with a pump height (1H) of 800m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposing series all blades aiming at the same amount of water more than 100 times Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydropower generator with a pump height of 800m with a pumping pump (1H) + solar heater (2) + additional gravity acceleration in vacuum, vertically accelerating in the vertical direction, opposed series all blades aiming at power generation more than 50 times the same amount of water Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, opposed series all blades aiming at power generation more than 25 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydropower generator with a pump height of 800m with a pump (1H) + solar heater (2) + Accelerating gravity acceleration in a vacuum vertically, opposed series all blades aiming for the same amount of water more than 12 times Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydropower generation with a pump pump (1H) increased by 600m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposed series all blades aiming at the same amount of water generation more than 200 times Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydroelectric power generation with a pump (1H) with a drop of 600m + solar heater (2) + additional gravity acceleration in the vacuum, vertically accelerating in the vertical direction, opposed series all blades aiming for the same amount of water generation more than 100 times Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation with a pumping pump (1H) increased by 600m + solar heater (2) + additional gravity acceleration in a vacuum, opposed vertical all blades aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydroelectric power generation with a pump of 1H and a drop of 600m + solar heater (2) + additional gravity acceleration in a vacuum to accelerate vertically downward, opposed series all blades aiming for power generation more than 25 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation with a pump pump (1H) increased by 600m + solar heater (2) + additional gravity acceleration in vacuum, opposed vertical all blades aiming at power generation more than 12 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydropower generator with a head pump of 1H and an increase of 400m in head + solar heater (2) + additional acceleration in the vertical direction in vacuum, opposed series all blades aiming at the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydropower generation with a pump height of 1m with a pump (1H) + solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposing series full blades aiming at the same amount of water generation more than 100 times Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydropower generator with a head pump of 1H, 400m head drop + solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, opposed series all blades aiming at power generation more than 50 times the same amount of water Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydroelectric power generation with a pump of 1H, 400m head drop + solar heater (2) + additional gravity acceleration in a vacuum, opposed vertical all blades aiming at power generation more than 25 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing series hydroelectric power generation with a pump of 1H, 400m head drop + solar heater (2) + additional gravity acceleration in vacuum, opposed vertical all rotor blades aiming at power generation more than 12 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 200m or less + Solar heater (2) + Accelerating gravitational acceleration vertically in the vacuum, opposing series full motion aiming at the same amount of water generation 200 times or more Various energy conservation cycle coalescing engines with multi-stage blade turbines.   Existing hydroelectric power generation with a pump (1H) with a drop of 200m or less + solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposing series full motion aiming at the same amount of water generation more than 100 times Various energy conservation cycle coalescing engines with multi-stage blade turbines.   Existing hydroelectric power generation with a pump (1H) with a drop of 200m or less + solar heater (2) + additional acceleration in the vertical direction in vacuum, opposing series full motion aiming at the same amount of water generation 50 times or more Various energy conservation cycle coalescing engines with multi-stage blade turbines.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposed series full motion aiming at the same amount of water more than 25 times Various energy conservation cycle coalescing engines with multi-stage blade turbines.   Existing hydroelectric power generation with a pump (1H) with a drop of 200m or less + solar heater (2) + additional acceleration in the vertical direction in vacuum, opposing series full motion aiming at the same amount of water more than 12 times Various energy conservation cycle coalescing engines with multi-stage blade turbines.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum to generate more than 200 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive power of around 374 degrees with solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward to generate more than 100 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive power of around 374 degrees with solar heater (2) + additional acceleration of gravity in vacuum vertically, generating more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive force of around 374 degrees with solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 12 times the same amount of water Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + acceleration of gravity is further accelerated vertically in the vacuum to generate more than 100 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 200m or less with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is more than 200 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the vaporization explosive force around 374 degrees with the solar heater (2) + the acceleration of gravity in the vacuum is further accelerated vertically downward, the same amount of water more than 50 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + vaporization explosive force of around 374 degrees by solar heater (2) + gravity acceleration is further accelerated vertically in vacuum, and the same water volume is more than 25 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, increase by 200m or less with pump (1H) + vaporization explosive force of around 374 degrees with solar heater (2) + additional acceleration of gravity in vacuum in the vertical direction, the same amount of water more than 12 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive power of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum, vertically generating the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, generating the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, generating the same amount of water more than 50 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive power of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydropower generation with 800m drop by pumping pump (1H) + more than 300 degrees vaporization explosive power with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum to generate 50 times or more the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive power of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum, generating the same amount of water more than 50 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive power of 300 degrees or more with the solar heater (2) + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration of 200% or more Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + 300 degree or more vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration downward in vacuum, same amount of water more than 50 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + vaporization explosive force of 300 degrees or more by solar heater (2) + gravitational acceleration is further accelerated vertically under vacuum, and the same amount of water is 25 times or more Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 300 degree or more vaporization explosive force with a solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, and the same amount of water is 12 times or more Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 200 degree or more vaporization explosive power with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated 50 times or more. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 200 degree or more vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive force with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive power with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 200 degree or more vaporization explosive power with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + 200 degrees or more of vaporization explosive force by a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a vaporization explosive force of 200 degrees or more with a solar heater (2) + the acceleration of gravity in the vacuum is accelerated vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + 200 ° C or more vaporization explosive force with a solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosion force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 400m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + more than 200 degrees of vaporization explosive power with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, the same amount of water is more than 200 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 200 degree or more vaporization explosive force with a solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, the same amount of water is more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 200 degrees or more of vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 50 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosion force of 200 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, and the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 12 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation.   In existing hydroelectric power generation, the head is increased by 1000m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated downward in a vacuum to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, increase in drop by 1000m with pumping pump (1H) + vaporization explosive force of 200 degrees or less with solar heater (2) + additional acceleration of gravity acceleration in vacuum vertically to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated 50 times or more. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 200 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 100 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, the head is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 400m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive force of 200 degrees or less with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 200 times or more Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 50 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 25 times or more Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, increase by 200m or less with pump (1H) + vaporization explosive force of 200 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 12 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   In existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 100 degrees or less with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating the same amount of water more than 50 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, the head is increased by 1000m with the pump (1H) + the vaporization explosive force of 100 degrees or less with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, increase in drop by 1000m with pumping pump (1H) + vaporization explosive force of 100 degrees or less with solar heater (2) + additional acceleration of gravity in vacuum vertically, generating 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Vaporization explosive power of 100 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 100 degrees or less by solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive power of 100 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically under vacuum to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive power of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 200 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with the pump (1H) + the vaporization explosive force of 100 degrees or less with the solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 50 times Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 25 times or more Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 12 times or more Various energy storage cycle coalescing engines with multi-stage opposed series full blade impeller water turbine aiming at power generation.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 800m with the pump (1H) + the solar gas heater (2) has the maximum vaporization and explosive power + the acceleration of gravity is further accelerated downward in the vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 800m with the pump (1H) + the solar gas heater (2) has the maximum vaporization explosive force + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + Solar gas heater (2) has a maximum vaporization and explosive force. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + the solar gas heater (2) increases the vaporization explosive power to the maximum + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + the solar gas heater (2) increases the vaporization explosion power to the maximum + the acceleration of gravity is further accelerated vertically in the vacuum, and the amount of water generated is more than 100 times the same. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosion power + a gravitational acceleration in a vacuum is further accelerated vertically downwards to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation is increased by 400m by pumping pump (1H) + maximum vaporization explosive power by solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, and the same amount of water is generated more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + Solar gas heater (2) with maximum vaporization explosive power + Gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosion power + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + Solar gas heater (2) has a maximum vaporization and explosive force + Gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration vertically in the vacuum, generating the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, increase of drop 200m or less with pumping pump (1H) + maximum increase of vaporization explosive power with solar heater (2) + acceleration of gravity in vacuum further downward acceleration to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Increased drop by 200m or less with pumping pump (1H) to existing hydroelectric power generation + Increased vaporization explosion power to maximum with solar heater (2) + Accelerated gravity acceleration in vacuum vertically, generating more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + the vaporization explosive power is maximized with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   The existing hydroelectric power generation has a drop of 200m or less with a pump (1H) + Solar gas heater (2) has a maximum increase in vaporization and explosion power + Accelerates gravitational acceleration vertically in the vacuum to generate more than 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Water surface levitation type solar heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in a vacuum vertically and providing multiple stages of opposed series full blade impeller water turbines aiming at the same amount of power generation 200 times or more Various energy conservation cycle coalescence engine.   Water surface floating type solar heater (2) for existing hydropower generation + Gravity acceleration added in vacuum Accelerating vertically downward, opposing series full blade impeller water turbines aiming at power generation amount of 100 times or more are provided in multiple stages Various energy conservation cycle coalescence engine.   Water surface levitation type solar heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum vertically and providing multistage stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water Various energy conservation cycle coalescence engine.   Water surface levitation type solar heater (2) for existing hydroelectric power generation + Gravitational acceleration is added in the vacuum, and vertical turbines are installed in multiple stages, aiming to generate power more than 25 times the same amount of water. Various energy conservation cycle coalescence engine.   Water surface levitation type solar heater (2) + existing gravity power generation in vacuum + Gravitational acceleration is added in the vertical direction, and opposed series full blade impeller water turbines aiming at the same amount of water generation 12 times or more are provided in multiple stages Various energy conservation cycle coalescence engine.   Water surface levitation type solar heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in a vacuum vertically and providing multiple stages of opposed series full blade impeller water turbines aiming at the same amount of power generation 200 times or more Various energy conservation cycle coalescence engine.   Water surface floating type solar heater (2) for existing hydropower generation + Gravity acceleration added in vacuum Accelerating vertically downward, opposing series full blade impeller water turbines aiming at power generation amount of 100 times or more are provided in multiple stages Various energy conservation cycle coalescence engine.   Water surface levitation type solar heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum vertically and providing multistage stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water Various energy conservation cycle coalescence engine.   Water surface levitation type solar heater (2) for existing hydroelectric power generation + Gravitational acceleration is added in the vacuum, and vertical turbines are installed in multiple stages, aiming to generate power more than 25 times the same amount of water. Various energy conservation cycle coalescence engine.   Water surface levitation type solar heater (2) + existing gravity power generation in vacuum + Gravitational acceleration is added in the vertical direction, and opposed series full blade impeller water turbines aiming at the same amount of water generation 12 times or more are provided in multiple stages Various energy conservation cycle coalescence engine.   Existing hydroelectric power generation pump (1H) + surface-floor solar heater (2) + gravity acceleration in a vacuum, opposed vertical full-blade impellers aiming at power generation more than 200 times the same amount of water Various energy storage cycle coalescing engine with multiple water turbines.   Existing hydroelectric power generation pump (1H) + surface-floor solar heater (2) + additional gravity acceleration in a vacuum, opposing series full blade impellers aiming to generate more than 100 times the same amount of water Various energy storage cycle coalescing engine with multiple water turbines.   Existing hydroelectric power generation pump (1H) + surface-floating solar heater (2) + additional gravity acceleration in the vacuum, opposing series full blade impellers aiming to generate more than 50 times the same amount of water Various energy storage cycle coalescing engine with multiple water turbines.   Existing hydroelectric power generation pump (1H) + surface-floating solar heater (2) + gravitational acceleration in a vacuum, vertically accelerated, opposing series full blade impeller aiming at power generation more than 25 times the same amount of water Various energy storage cycle coalescing engine with multiple water turbines.   Existing hydroelectric power generation pump (1H) + surface floating solar heater (2) + additional gravity acceleration in a vacuum, opposing series full blade impellers aiming at power generation more than 12 times the same amount of water Various energy storage cycle coalescing engine with multiple water turbines.   Existing hydropower generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   In addition to the existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated 200 times or more. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   In addition to the existing hydroelectric power generation pump (1H) + surface-floor type solar heater (2), vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pumping pump (1H) + surface floating solar heater (2), vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   For existing hydropower generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 50 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum, and accelerate vertically downward to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum, and accelerate vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, and accelerate vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 50 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravity acceleration in vacuum vertically, the same amount of water more than 25 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum, and accelerate vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water more than 25 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 25 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 25 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   For existing hydroelectric power generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum, vertically accelerated, the same water volume 12 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 12 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   For existing hydroelectric power generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is generated 12 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same water volume 12 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of around 374 degrees + gravity acceleration in vacuum, aiming for the same maximum water generation by accelerating gravitational acceleration vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 300 degrees or more + additional acceleration of gravity in vacuum, aiming for maximum power generation with the same amount of water Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, aiming at the same maximum water generation Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force below 200 degrees + gravity acceleration in vacuum, aiming for the same maximum water generation by accelerating gravitational acceleration vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 100 degrees or less + additional acceleration of gravity in vacuum, aiming for the same maximum water generation Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater (2) such as a surface-floating type + a gravitational acceleration in vacuum is added to accelerate vertically downwards, opposes the same amount of water more than 200 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + solar surface heater (2) such as a surface-floating type + the acceleration of gravity in the vacuum is accelerated vertically downwards, opposes the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater (2) such as a surface-floating type + a gravitational acceleration is added in a vertical downward direction in the vacuum, facing the same amount of water more than 50 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater (2) such as a surface-floating type + a gravitational acceleration is added in a vertical downward direction in the vacuum, facing the same amount of water more than 25 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + solar surface heater (2) such as a surface-floating type + the acceleration of gravity in the vacuum is accelerated vertically downwards, opposes the same amount of water 12 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + the acceleration of gravity is further accelerated vertically in the vacuum, facing the same amount of water more than 200 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + surface-heating solar heater (2) + gravity acceleration in a vacuum and vertically accelerated, facing the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + the acceleration of gravity in the vacuum is accelerated vertically downwards, and the opposite amount is aimed at generating the same amount of water 50 times or more. Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + the acceleration of gravity is further accelerated vertically in the vacuum, and the opposite amount is aimed at generating the same amount of water more than 25 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + the acceleration of gravity is accelerated in the vertical direction in the vacuum, and the opposite amount is aimed at generating the same amount of water 12 times or more. Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + the acceleration of gravity is further accelerated vertically in the vacuum, and the opposite amount is aimed at generating the same amount of water more than 200 times. Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + Gravitational acceleration is added in the vertical downward direction in the vacuum, facing the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + Accelerating gravity acceleration in a vacuum vertically and facing the target water generation more than 50 times the same amount of water Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + Gravitational acceleration is accelerated vertically downward in the vacuum, and the opposite amount is aimed at generating the same amount of water 25 times or more. Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + the acceleration of gravity is further accelerated vertically in the vacuum, and the opposite amount is aimed at generating the same amount of water more than 12 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + Accelerating gravity acceleration in a vacuum vertically, facing the same amount of water more than 200 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + Gravitational acceleration is further accelerated vertically downward in the vacuum, and the opposite amount is aimed at generating the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + Accelerating the gravitational acceleration vertically in the vacuum, facing the same amount of water more than 50 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + Gravitational acceleration is accelerated vertically downward in the vacuum, and the opposite amount is aimed at generating the same amount of water 25 times or more. Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a solar surface heater (2) such as a surface-floating type + an acceleration of gravitational acceleration in a vacuum, facing the target to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + Gravitational acceleration is added in the vertical direction in the vacuum, and the opposite is aimed at generating the same amount of water more than 200 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration is added in the vertical direction in the opposite direction, aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + an acceleration of gravity acceleration in a vacuum, facing downwards, aiming to generate 50% or more of the same amount of water Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + the acceleration of gravity is accelerated vertically downward in the vacuum, and the opposite amount is aimed at generating the same amount of water more than 25 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + Solar surface heater (2) such as a surface-floating type + Opposite gravity acceleration in the vertical direction, aiming for power generation more than 12 times the same water volume Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar surface heater (2) + surface-floating type, etc. + Accelerate gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   For existing hydroelectric power generation, increase the drop by 200m or less with pumping pump (1H) + Solar surface heater (2) such as surface-floating type + Accelerate gravity acceleration vertically in the vacuum, aiming for the same amount of water generation more than 100 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar surface heater (2) such as a surface-floating type + Accelerate gravity acceleration vertically in the vacuum, aiming for the same amount of water generation 50 times or more Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Increase the drop by 200m or less with a pump (1H) to existing hydroelectric power generation + Solar surface heater (2) with surface levitation, etc. + Gravity acceleration is accelerated vertically downward in the vacuum, aiming for the same amount of water generation more than 25 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   For existing hydroelectric power generation, increase the drop by 200m or less with pumping pump (1H) + Solar surface heater (2) such as surface floating type + Gravity acceleration is further accelerated vertically downward in vacuum, aiming for power generation of 12 times or more of the same amount of water Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + a surface-floating solar heater (2) + additional gravity acceleration in a vacuum to accelerate vertically downwards, aiming to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + surface floating type solar heater (2) + additional gravity acceleration in the vacuum to accelerate vertically downward, opposite series aiming at the same amount of water more than 100 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + surface-fed solar heater (2) + Accelerated gravitational acceleration in vacuum vertically, opposed series aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + surface-fed solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposing series in which the amount of water is more than 25 times the same Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposed series aiming at the same amount of water more than 12 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in vacuum, opposed series aiming to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + surface floating solar heater (2) + additional gravity acceleration in vacuum, vertical acceleration, opposed series aiming at the same amount of water more than 100 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposing series in which the same amount of water is aimed at 50 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposed series aiming at power generation of more than 25 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + surface-floating solar heater (2) + gravitational acceleration is added in the vertical direction in the opposite direction, aiming to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + surface-floor type solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward, facing series aiming at the same amount of water more than 200 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposed series aiming at the same amount of water more than 100 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposing series in which the same amount of water is aimed at 50 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposed series aiming to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + surface-floor type solar heater (2) + additional gravity acceleration in a vacuum vertically opposite to each other, aiming to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in vacuum, opposing series in which the same amount of water is aimed at 200 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 400m with a pumping pump (1H) + surface-floor solar heater (2) + gravity acceleration in a vacuum, and vertically opposed, aiming at the same amount of water generation more than 100 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposed series aiming at the same amount of water more than 50 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + water surface floating solar heater (2) + additional gravity acceleration in a vacuum vertically opposite to each other, aiming to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + water surface floating solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposed series aiming at the same amount of water more than 12 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum to oppose the same amount of water more than 200 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + surface-floating solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downwards, facing the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + surface-floor type solar heater (2) + gravity acceleration is added in the vertical downward direction in the vacuum, facing the same amount of water more than 50 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + surface-floor type solar heater (2) + gravity acceleration is added in the vertical downward direction in the vacuum, facing the same amount of water more than 25 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + surface-floating solar heater (2) + gravity acceleration is further accelerated downward in the vacuum, facing the same amount of water more than 12 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 800m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a surface-expanding solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and the vertical acceleration is accelerated downward. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a surface-expanding solar heater (2) with a vaporization explosive force of around 374 degrees + gravity acceleration in a vacuum in the vertical direction, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a surface-expanding solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in vacuum, and the acceleration of gravity in the vertical downward direction, the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration to reduce the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a surface-expanding solar heater (2), the vaporization explosive force of around 374 degrees + the acceleration of gravity in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floating solar heater (2) that accelerates the vaporization force around 374 degrees + the acceleration of gravity in a vacuum and accelerates the gravity downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floor solar heater (2) that accelerates the vaporization force around 374 ° C and accelerates the gravitational acceleration vertically in a vacuum to achieve the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times.   The existing hydroelectric power generation has a drop of 200m or less with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration to accelerate downward. Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + accelerating gravitational acceleration vertically in a vacuum, with the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + accelerating the gravitational acceleration in a vacuum vertically, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 300 degree or more vaporization explosive force with a surface-floor solar heater (2) + Gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 300 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 300 degree or more vaporization explosive force with a surface-floor type solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + 300 ° C or more vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + surface-expanding solar heater (2), vaporization explosive force of 300 degrees or more + additional acceleration of gravity in vacuum, vertically below 25% Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 300 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface surfacing solar heater (2) with a vaporization explosive force of more than 300 degrees + gravity acceleration in a vacuum, vertically accelerated, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface-exposure solar heater (2) with a vaporization explosive force of 300 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + further accelerate the gravitational acceleration vertically in the vacuum, the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + further accelerate the gravitational acceleration vertically in the vacuum, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation is increased by 400m with pumping pump (1H) + vaporization explosive force of 300 degrees or more with surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + more than 300 degrees of vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 300 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + 300 degree or more vaporization explosive force with a surface floating solar heater (2) + Gravitational acceleration is further accelerated vertically under vacuum, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) increases the vaporization explosive force of 300 degrees or more + further accelerates the gravitational acceleration in the vacuum, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbine aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbine aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a surface surfacing solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) increases the vaporization explosive force of 200 degrees or more + further accelerates the gravitational acceleration vertically in the vacuum, with the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward to achieve the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation with a pumping pump (1H) increased by 1000m + water-floating solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum further accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 200 degree or more vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + more than 200 degrees of vaporization explosive force with a surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + more than 200 degrees of vaporization explosive power with a surface-floor solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation is increased by 800m by pumping pump (1H) + vaporization explosive force of 200 degrees or more by surface-floor solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 600m and a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a vaporization explosive force of 200 degrees or more with a surface floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + accelerating gravitational acceleration vertically in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward to achieve the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes explosive force of 200 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward to achieve the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that evaporates more than 200 degrees + a gravitational acceleration in a vacuum and accelerates vertically downward to achieve the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbine aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation is increased by 1000m with a pumping pump (1H) + 200 degree or less vaporization explosive force with a surface-floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less + a gravitational acceleration in a vacuum that is accelerated vertically downward to the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m and a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + vaporization explosive force of 200 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a surface floating solar heater (2) + a gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floor solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + additional acceleration of gravity in a vacuum in the vertical direction, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floating solar heater (2) that vaporizes less than 200 ° C + accelerates the gravitational acceleration vertically in a vacuum. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes less than 200 degrees + gravity acceleration in a vacuum and further accelerates the gravitational acceleration vertically downward to achieve the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbine aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 1000m with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floor solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum and a vertical acceleration of 25%. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Vaporization explosive force of 100 degrees or less with surface floating solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates vertically down to 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum that is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes and explodes below 100 degrees + accelerates the gravitational acceleration vertically in a vacuum, with the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbine aiming at power generation more than 100 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 50 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + further accelerates the gravitational acceleration in a vacuum, vertically accelerating by 200 times the same amount of water Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased with a pumping pump (1H) + a vaporization explosive force is increased to a maximum with a surface-floating solar heater (2) + gravity acceleration is accelerated vertically downward in a vacuum, and the same amount of water is increased by 100 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force is increased to a maximum by a surface-floating solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is multiplied by 50 Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force. Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased with a pumping pump (1H) + a vaporization explosive force is increased to a maximum with a surface-floating solar heater (2) + gravity acceleration is accelerated vertically downward in a vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H), the vaporization explosive power is maximized with a surface-floor solar heater (2), and the acceleration of gravity is further accelerated vertically in the vacuum to increase the same amount of water by 200 times. Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + maximum increase of vaporization explosive power by surface floating solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration, 100 times the same amount of water Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + maximum increase of vaporization explosive power by surface floating solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration, 50 times the same amount of water Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H), the vaporization explosive power is increased with the surface-floating solar heater (2), and the acceleration of gravity is further accelerated in the vertical direction in a vacuum to increase the same amount of water by 25 times. Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + the surface-exposure solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force is increased to a maximum by a surface-floating solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum, and the same amount of water is 200 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is increased by 100 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in a vacuum, and the same amount of water is 50 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by the pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 25 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + the surface-floating solar heater (2) is increased to the maximum vaporization explosive force + gravitational acceleration is further accelerated in the vertical direction in vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + Accelerates gravitational acceleration vertically in the vacuum, and the same amount of water 200 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase vaporization power to maximum with surface floating solar heater (2) + Accelerate gravitational acceleration vertically in vacuum, 100 times the same water volume Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase to maximum vaporization explosive power with surface floating solar heater (2) + Accelerate gravitational acceleration in vacuum vertically and increase water volume by 50 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + Accelerates gravitational acceleration vertically in the vacuum and increases the same amount of water by 25 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a vaporization explosive power is increased to a maximum by a surface floating solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum, vertically accelerating the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum, vertically accelerating the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravitational acceleration in a vacuum, and opposed series full blade impeller water turbine aiming at power generation more than 200 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravitational acceleration in vacuum vertically, and opposing series full-wing blade bouncing water turbines aiming at power generation more than 100 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravitational acceleration in a vacuum vertically, and opposed series full-wing blade propeller water turbine aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravity acceleration in a vacuum, opposed series full-blade bouncing vehicle water turbine aiming at power generation more than 25 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravitational acceleration in a vacuum, and opposed series full blade impeller water turbine aiming at power generation more than 200 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravitational acceleration in vacuum vertically, and opposing series full-wing blade bouncing water turbines aiming at power generation more than 100 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravitational acceleration in a vacuum vertically, and opposed series full-wing blade propeller water turbine aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravity acceleration in a vacuum, opposed series full-blade bouncing vehicle water turbine aiming at power generation more than 25 times the same water volume Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescence engine installed in multiple stages.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposing series all aiming at the same amount of water generation more than 200 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in vacuum, opposing series all aiming at the same amount of water generation more than 100 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposing series all aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in the vacuum, opposing series all aiming for the same amount of water generation 25 times or more Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in vacuum, opposing series all aiming at power generation more than 12 times the same water volume Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same water volume 200 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 300 degrees or more + Gravitational acceleration is accelerated vertically downward in vacuum, the same amount of water 200 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) evaporating explosive force of 200 degrees or more + accelerating gravitational acceleration vertically in vacuum, same water volume 200 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same water volume is 200 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 100 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Add to existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2), vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum, vertically accelerated, 100 times the same water volume Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same water volume 50 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Add to existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 25 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) evaporating explosive force of 200 degrees or more + Accelerating gravitational acceleration vertically in vacuum, same water volume 25 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + Gravity acceleration is accelerated vertically downward in vacuum, the same amount of water 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force below 200 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same maximum water volume Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward, and the same water maximum power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and the same water maximum power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same water maximum power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward to generate the same maximum amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, increase the head by pumping pump (1H) + solar heating (2b) such as suspension bridge (2b) + solar heater (2) + add gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   For existing hydroelectric power generation, increase the head by pumping pump (1H) + solar heating (2b), such as suspension bridge (2b) + solar acceleration (2) + gravity acceleration in vacuum is accelerated vertically downward to increase the amount of generated water by 100 times or more Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   For existing hydroelectric power generation, increase the head with a pump (1H) + solar heating (2b) such as a solar thermal expansion suspension bridge (2b) + add gravity acceleration in the vacuum vertically in the vacuum, and generate the same amount of water more than 50 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   For existing hydroelectric power generation, increase the head with a pump (1H) + Solar heating (2b) such as a solar heat increase suspension bridge (2b) + Accelerate gravity acceleration in the vacuum vertically, and generate more than 25 times the same amount of water Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   For existing hydroelectric power generation, increase the head with a pump (1H) + Solar heating (2b) such as a suspension bridge (2b) + Addition of acceleration of gravity in vacuum + Accelerate the gravitational acceleration vertically, and generate the same amount of water more than 12 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + solar heat increase suspension solar bridge (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation by pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) etc. Solar power heater (2) + Gravity acceleration is further accelerated vertically downward in vacuum, same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation by pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate 50% or more of the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + solar heating increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of water generated is more than 12 times the same. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravity acceleration is further accelerated downward in the vacuum, and the same amount of water is generated more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation with a pump (1H) increased by 800m + solar heat increase suspension solar bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Add to existing hydroelectric power generation by 800m drop with pump (1H) + Solar heat increase suspension bridge (2b), etc. Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, the same amount of water more than 50 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + solar heating (2b) such as suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 25 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar heating (2b) such as a solar thermal expansion suspension bridge (2b) + gravity acceleration in the vacuum is further accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   For existing hydroelectric power generation, the pump is increased by 600m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   For existing hydroelectric power generation, increase in head by 600m with pump (1H) + solar heating (2b) such as suspension bridge (2b) + additional solar acceleration (2) + vacuum acceleration in the vertical direction, the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   For existing hydroelectric power generation, a 600m drop with a pump (1H) + solar heating (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum, vertically generating the same amount of water 50 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation with a pump (1H) with a drop of 600m + solar heating increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   For existing hydroelectric power generation, a 600m drop with a pump (1H) + Solar heating (2b) such as a suspension bridge (2b) + Additional acceleration of gravity in the vacuum vertically in the vacuum to increase the amount of water more than 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation with a pump (1H) increased by 400m + solar heating increased suspension solar bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of generated water is more than 200 times the same. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated 50 times or more. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   Existing hydroelectric power generation with pumping pump (1H) increased by 400m + solar heat increase suspension bridge (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 25 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   For existing hydroelectric power generation, increase by 200m or less with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + additional acceleration of gravity acceleration in vacuum, generating more than 100 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   In existing hydroelectric power generation, increase by 200m or less with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + additional acceleration of gravity acceleration in vacuum, generating more than 25 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + acceleration of gravitational acceleration downward in vacuum to generate more than 12 times the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming for quantity.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Existing hydroelectric power generation with pumping pump (1H) increased by 1000m + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity in the vacuum downward in the vertical direction. Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Existing hydroelectric power generation with pumping pump (1H) 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Existing hydroelectric power generation with pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to increase the amount of water generation by 12 times or more. Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Add 800m drop to the existing hydroelectric power generation pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 200 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Add 800m drop with existing pump for pumping water (1H) + Suspension bridge (2b) Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum to increase the amount of generated water by 100 times or more Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m increase + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum downwards, the same amount of water more than 50 times the amount of power generation Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   In existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   In existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of generated water is more than 200 times the same. Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Add 600m drop to existing hydroelectric power generation with pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration in vacuum is accelerated vertically downward to increase power generation by 100 times or more. Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated downward in the vacuum, and the same amount of water is generated 50 times or more. Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Existing hydroelectric power generation with a pumping pump (1H) + 600m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Existing hydroelectric power generation with a pump (1H) with a head drop of 400m + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum, vertically generating the same amount of water more than 200 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   In existing hydroelectric power generation with a pumping pump (1H) 400m head drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, and the same amount of water is generated 50 times or more. Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   Existing hydroelectric power generation with a pumping pump (1H) 400m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aimed at.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum downward, the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, the same amount of water more than 50 times the amount of power generation Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 25 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar thermal increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 12 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 200 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation more than 25 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 12 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 200 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation more than 25 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 12 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 200 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation more than 25 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 12 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 200 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine aiming at power generation more than 25 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 12 times the amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   The existing solar power generation suspension bridge (2b) is brought close to the right angle of sunlight + solar heater (2) + opposite acceleration to accelerate the gravitational acceleration vertically in the vacuum and increase the amount of generated water by 200 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Close the existing solar power generation suspension bridge (2b) to the sunlight perpendicularly to the sunlight + Solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum and oppose the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Close the existing solar power generation suspension bridge (2b) to the sunlight perpendicularly to the sunlight + solar heater (2) + Accelerate gravity acceleration in the vacuum vertically and oppose the same amount of water more than 50 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing solar power generation suspension bridge (2b) is brought close to the right angle of sunlight + solar heater (2) + opposite acceleration to accelerate the gravitational acceleration in the vacuum vertically and aim to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Close the existing solar power generation suspension bridge (2b) to the right angle of sunlight + Solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, oppose the same amount of water more than 12 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing solar power generation suspension bridge (2b) is brought close to the right angle of sunlight + solar heater (2) + opposite acceleration to accelerate the gravitational acceleration vertically in the vacuum and increase the amount of generated water by 200 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Close the existing solar power generation suspension bridge (2b) to the sunlight perpendicularly to the sunlight + Solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum and oppose the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Close the existing solar power generation suspension bridge (2b) to the sunlight perpendicularly to the sunlight + solar heater (2) + Accelerate gravity acceleration in the vacuum vertically and oppose the same amount of water more than 50 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The existing solar power generation suspension bridge (2b) is brought close to the right angle of sunlight + solar heater (2) + opposite acceleration to accelerate the gravitational acceleration in the vacuum vertically and aim to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Close the existing solar power generation suspension bridge (2b) to the right angle of sunlight + Solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, oppose the same amount of water more than 12 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought perpendicular to sunlight + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, same water volume 200 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) + gravitational acceleration is accelerated vertically downward in vacuum, the same amount of water is 100 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is moved perpendicular to sunlight + solar heater (2) + gravitational acceleration is accelerated vertically downward in the vacuum, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water is 25 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is moved perpendicular to sunlight + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of 50 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of 50 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of 50 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of 50 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of 50 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for power generation of the same amount of water 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same maximum water output.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same maximum water output.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same maximum water output.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same maximum water output.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate and aim for the same maximum water output.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar thermal increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 200 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation more than 100 times.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of power generation 50 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 200 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation more than 100 times.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of power generation 50 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 200 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation more than 100 times.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of power generation 50 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 200 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation more than 100 times.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of power generation 50 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multi-stage opposed series full blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Raise and lower the solar thermal suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Raise the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with left and right with the suspension + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 25 times the same water volume Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Raise and lower the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 12 times or more Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Raise and lower the solar thermal suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Raise the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with left and right with the suspension + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 25 times the same water volume Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   Raise and lower the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 12 times or more Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) is moved left and right and up and down with a lifting tool + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   For existing hydropower, lift pump (1H) + solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   For existing hydroelectric power generation, the pump (1H) + solar thermal suspension bridge (2b) is moved up and down with the hanger + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is moved left and right and up and down with a lifting tool + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming for power generation more than double.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy storage cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 200 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 200 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 200 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 200 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 200 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 12 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to achieve the same maximum water output.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to achieve the same maximum water output.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to achieve the same maximum water output.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to achieve the same maximum water output.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to achieve the same maximum water output.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescence engine which provided the opposite series all blade impeller water turbine which aimed at the electric power generation more than 200 times the same water quantity in multiple stages.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbine aiming at power generation more than 50 times the same water quantity.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescence engine which provided the opposite series all blade impeller water turbine which aimed at the power generation amount more than 25 times the same water quantity in multiple stages.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines with multistage stages of opposed series full blade impeller water turbines aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of more than 12 times the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 100 times the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at power generation of 50 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming to generate power more than 25 times the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Vaporization explosion force around 374 degrees with the solar heater (2) + gravity in the vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Vaporization explosion force around 374 degrees with the solar heater (2) + gravity in the vacuum Various energy storage cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy storage cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 12 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy storage cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 12 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy storage cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines aiming at generating the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy storage cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate acceleration further vertically downward and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines that accelerate further downward vertically and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbines accelerating further vertically downward and aiming for power generation of 12 times or more.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 100 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is a combined engine with various energy conservation cycles that has multiple stages of opposed series full blade impeller water turbines that aim to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines that aim to generate more than 12 times the same amount of water.   Addition of gravity acceleration in vacuum to existing hydroelectric power generation. Various energy conservation cycle coalescing engines with multiple stages of series full blade impeller water turbines aiming to generate power more than 200 times the same amount of water.   Various energy conservation cycle coalescing engines with multiple stages of series turbine blade turbines that aim to generate electricity more than 100 times the same amount of water by accelerating gravitational acceleration in a vacuum in addition to existing hydroelectric power generation.   Addition of gravity acceleration in vacuum to existing hydroelectric power generation. Various energy conservation cycle coalescing engines with multistage cascaded turbine blade turbines aiming at power generation more than 50 times the same amount of water.   Addition of gravity acceleration in vacuum to existing hydroelectric power generation. Various energy conservation cycle coalescing engines with multiple stages of series-rotor-bladed oil turbine water turbines aiming at power generation more than 25 times the same amount of water.   Various energy storage cycle coalescence engines with multiple stages of series turbine blade turbines that aim to generate electricity more than 12 times the same amount of water by accelerating gravitational acceleration in a vacuum in addition to existing hydroelectric power generation.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravitational acceleration vertically in the vertical direction to save energy by providing a series of all blade impeller water turbines in multiple stages aiming to generate power more than 200 times the same amount of water Cycle coalescence engine.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravity acceleration in vacuum vertically and saving energy by providing a series of all blade impeller water turbines in multiple stages, aiming to generate more than 100 times the same amount of water Cycle coalescence engine.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravitational acceleration vertically in the vertical direction to save energy by providing a series of all blade impeller water turbines in multiple stages, aiming to generate more than 50 times the same amount of water Cycle coalescence engine.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravity acceleration in the vacuum vertically and saving energy with multi-stage series full-blade bouncing water turbines that aim to generate power more than 25 times the same amount of water Cycle coalescence engine.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravity acceleration in a vacuum vertically and saving energy by providing a series of all blade impeller water turbines in multiple stages aiming to generate power more than 12 times the same amount of water Cycle coalescence engine.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravitational acceleration vertically in the vertical direction to save energy by providing a series of all blade impeller water turbines in multiple stages aiming to generate power more than 200 times the same amount of water Cycle coalescence engine.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravity acceleration in vacuum vertically and saving energy by providing a series of all blade impeller water turbines in multiple stages, aiming to generate more than 100 times the same amount of water Cycle coalescence engine.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravitational acceleration vertically in the vertical direction to save energy by providing a series of all blade impeller water turbines in multiple stages, aiming to generate more than 50 times the same amount of water Cycle coalescence engine.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravity acceleration in the vacuum vertically and saving energy with multi-stage series full-blade bouncing water turbines that aim to generate power more than 25 times the same amount of water Cycle coalescence engine.   Addition of solar heater (2) to existing hydroelectric power generation + Accelerating gravity acceleration in a vacuum vertically and saving energy by providing a series of all blade impeller water turbines in multiple stages aiming to generate power more than 12 times the same amount of water Cycle coalescence engine.   In addition to the existing hydroelectric power generation pump (1H) + solar heater (2) + acceleration of gravity in a vacuum, the vertical acceleration is accelerated vertically downward, and a series of all-stage impeller-driven turbine water turbines aiming at the same amount of power generation 200 times or more Various energy conservation cycle coalescence engine established in.   In addition to existing hydroelectric power generation pump (1H) + solar heater (2) + additional gravity acceleration in vacuum, vertically accelerating vertically downwards, multistage series full blade impeller water turbine aiming at power generation more than 100 times the same water volume Various energy conservation cycle coalescence engine established in.   In addition to existing hydroelectric power generation pump (1H) + solar heater (2) + acceleration of gravity acceleration in a vacuum, vertically accelerating downward in the vertical direction, multiple stages of series all blade impeller water turbines aiming for power generation more than 50 times the same amount of water Various energy conservation cycle coalescence engine established in.   In addition to existing hydroelectric power generation pump (1H) + solar heater (2) + acceleration of gravity acceleration in vacuum, vertically accelerating downward in the vertical direction, multiple stages of series full blade impeller water turbines aiming at power generation more than 25 times the same water volume Various energy conservation cycle coalescence engine established in.   In addition to the existing hydroelectric power generation pump (1H) + solar heater (2) + acceleration of gravity in the vacuum is accelerated vertically downward, and a series of all-stage blade impeller water turbines aiming at power generation more than 12 times the same amount of water Various energy conservation cycle coalescence engine established in.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) that accelerates vaporization explosion around 374 degrees + gravity acceleration in a vacuum, vertically downwards, aiming at the same amount of water more than 200 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) that accelerates vaporization explosion of 300 degrees or more + gravitational acceleration in a vacuum and vertically accelerates, aiming at the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 200 degrees or more + additional acceleration of gravity in the vacuum downward in the vertical direction, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 200 degrees or less + gravitational acceleration in a vacuum and vertically accelerating downwards, aiming for the same amount of water more than 200 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 100 degrees or less + gravity acceleration in a vacuum in the vertical direction, aiming to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) that accelerates vaporization explosion around 374 ° C and accelerates the gravitational acceleration vertically downward, aiming to generate more than 100 times the same amount of water. Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 300 degrees or more + additional acceleration of gravity in vacuum vertically downward, aiming at the same amount of water generation 100 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 200 degrees or more + gravitational acceleration in a vacuum and vertically accelerating downward, aiming for the same amount of water generation more than 100 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Series of existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, vertically downward, aiming for power generation more than 100 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation, with a pumping pump (1H) + solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, vertically accelerated, aiming to generate power more than 100 times the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Series of existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of around 374 degrees + acceleration of gravity in vacuum, and downward acceleration, aiming for power generation of 50 times or more. Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 300 degrees or more + gravitational acceleration in a vacuum, vertically accelerating downward, aiming for the same amount of power generation 50 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 200 degrees or more + gravitational acceleration in a vacuum, vertically accelerating downward, aiming for the same amount of water generation 50 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In series with existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive power of 200 degrees or less + gravity acceleration in vacuum, vertically downward, aiming for power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation, with a pumping pump (1H) + solar heater (2), vaporization explosive power of 100 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Series of existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of around 374 degrees + gravity acceleration in vacuum, vertically accelerated, aiming for power generation of more than 25 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 300 degrees or more + gravitational acceleration in a vacuum and vertically accelerating downward, aiming for the same amount of water generation 25 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) that accelerates vaporization explosion of 200 degrees or more + gravitational acceleration in a vacuum, vertically downwards, aiming to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerating downward, aiming for the same amount of water more than 25 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Series of existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, and vertically accelerating, aiming for electric power generation more than 25 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Series of existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power around 374 degrees + gravitational acceleration in vacuum added vertically downward, aiming at power generation more than 12 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) for vaporization explosive power of 300 degrees or more + gravitational acceleration in a vacuum and vertically accelerating downwards, aiming to generate power more than 12 times the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A series of existing hydroelectric power generation with a pumping pump (1H) + solar heater (2) that vaporizes and explodes more than 200 degrees + gravitational acceleration in a vacuum and accelerates vertically downwards, aiming to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Series of existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, and vertically accelerating vertically, aiming for power generation of 12 times or more. Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Series of existing hydroelectric power generation with pumping pump (1H) + solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, vertically downward, aiming for power generation of 12 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In addition to the existing hydroelectric power generation pump pump (1H) + solar heater (2), vaporization explosive power around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward to achieve the same maximum water production in series Various energy conservation cycle coalescing engines with multi-stage blade turbines.   In addition to the existing hydroelectric power generation pump (1H) + solar heater (2), vaporization explosive force of 300 degrees or more + additional gravity acceleration in a vacuum, vertically accelerating in the vertical direction, aiming at the same water volume maximum power generation Various energy conservation cycle coalescing engines with multi-stage blade turbines.   In addition to the existing hydroelectric power generation pump (1H) + solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward to achieve the same water volume maximum power generation Various energy conservation cycle coalescing engines with multi-stage blade turbines.   In addition to the existing hydroelectric power generation pump (1H) + solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum is further accelerated vertically downward to achieve the same water volume maximum power generation Various energy conservation cycle coalescing engines with multi-stage blade turbines.   Existing full-scale hydroelectric power generation pump (1H) + solar power heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum, vertical full acceleration, aiming at maximum water production with the same water volume Various energy conservation cycle coalescing engines with multi-stage blade turbines.   Increased head with pump (1H) in existing hydropower generation + Accelerated gravitational acceleration in vacuum, vertical energy, and a series of all blade impeller water turbines aiming at power generation of 200 times or more in various stages Conservation cycle coalescence organization.   Increased head with a pump (1H) in existing hydroelectric power generation + Accelerated gravitational acceleration in vacuum vertically, and various types of energy with multi-stage series full-blade propulsion water turbines aiming at the same amount of water generation more than 100 times Conservation cycle coalescence organization.   Increased head with pump (1H) in existing hydroelectric power generation + Accelerated gravitational acceleration in vacuum vertically, and various energies equipped with multi-stage series bucket blade water turbines aiming at power generation more than 50 times the same water volume Conservation cycle coalescence organization.   Increased head with pump (1H) in existing hydropower generation + Gravity acceleration added in vacuum, vertically accelerated, all-stage bladed impeller water turbines aiming at power generation more than 25 times the same amount of energy provided in multiple stages Conservation cycle coalescence organization.   Increased head with pump (1H) in existing hydroelectric power generation + Accelerated gravitational acceleration in vacuum vertically, and various energies with series full-blade bouncing water turbines in multiple stages aiming to generate power more than 12 times the same amount of water Conservation cycle coalescence organization.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + gravity acceleration in a vacuum is further accelerated vertically downward, and a series of all-blade propulsion water turbines with multiple stages are provided in multiple stages aiming at the same amount of power generation 200 times or more. Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + additional gravity acceleration in a vacuum, and a series of all blade impeller water turbines aiming at power generation more than 100 times the same amount of water is provided in multiple stages Energy conservation cycle coalescence engine.   Increased drop by 1000m with existing pumps (1H) + additional acceleration of gravity in vacuum, vertically accelerating downwards, and a series of all blade impeller water turbines with multiple stages, aiming to generate more than 50 times the same amount of water Energy conservation cycle coalescence engine.   Increased drop by 1000m with existing pumps (1H) + Add gravity acceleration in vacuum and accelerate in the vertical direction. All types of series turbine blade turbine water turbines in multiple stages aiming to generate more than 25 times the same amount of water. Energy conservation cycle coalescence engine.   Increased drop by 1000m with existing pumps (1H) + additional gravity acceleration in a vacuum, and vertical multi-stage bladed turbine water turbines aiming for power generation more than 12 times the same amount of water Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + gravity acceleration is further increased in the vertical direction in vacuum, and a series of all-blade propulsion turbine water turbines that aim at the same amount of power generation 200 times or more are provided in multiple stages. Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + gravity acceleration is further increased in the vacuum in the vertical direction. Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + gravity acceleration in a vacuum is further accelerated vertically downward, and a series of all-stage blade impeller water turbines with multiple stages are provided in multiple stages, aiming for the same amount of power generation 50 times or more. Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + Gravity acceleration in vacuum is further accelerated vertically downwards. Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + an acceleration of gravity in vacuum, and a series of all-blade propulsion turbine water turbines with multiple stages, aiming to generate more than 12 times the same amount of water. Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + additional gravity acceleration in a vacuum, and the vertical all-blade propulsion water turbines are installed in multiple stages, aiming at the same amount of power generation 200 times or more Energy conservation cycle coalescence engine.   Increased drop by 600m with existing pumps (1H) + additional acceleration of gravity in vacuum, vertically accelerating downwards vertically, and a series of all-blade propulsion-wheel water turbines with multiple stages, aiming to generate more than 100 times the same amount of water Energy conservation cycle coalescence engine.   Increased drop 600m with existing pumps (1H) + additional gravity acceleration in vacuum, vertical all-in-one bladed turbine water turbines aiming at power generation more than 50 times in various stages Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and a series of all-stage blade impeller water turbines are provided in multiple stages aiming to generate the same amount of water more than 25 times Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and a series of all-blade impeller water turbines with multiple stages are provided in multiple stages aiming at the same amount of water generation 12 times or more Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + the acceleration of gravity in vacuum is accelerated vertically downward, and a series of all-blade impeller-driven turbine water turbines aiming at power generation of 200 times or more are provided in multiple stages. Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + an acceleration of gravity in vacuum, and a series of all-blade propulsion water turbines with multiple stages are provided to accelerate power generation vertically by 100%. Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 400m with a pumping pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and a series of all-blade propulsion turbine water turbines aiming at power generation of 50 times or more are provided in multiple stages Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + the acceleration of gravity in vacuum is accelerated vertically downward, and a series of all-blade impeller water turbines with multiple stages are provided in multiple stages aiming to generate the same amount of water more than 25 times Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 400m with a pumping pump (1H) + gravity acceleration in vacuum is accelerated vertically downward, and a series of all-blade propulsion water turbines with multiple stages are provided in multiple stages aiming at the same amount of water generation 12 times or more. Energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by a drop of 200m or less with a pump (1H) + gravity acceleration in a vacuum is further accelerated vertically downward, and a series of all blade impeller water turbines with the same amount of water more than 200 times are provided in multiple stages. Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by a drop of 200m or less with a pump (1H) + gravity acceleration in a vacuum is accelerated vertically downward, and a series of all-blade impeller-driven water turbines aiming at power generation of 100 times or more are provided in multiple stages. Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + gravity acceleration is further accelerated in the vertical direction in vacuum, and the series full blade impeller water turbines aiming at power generation more than 50 times are provided in multiple stages. Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + Gravity acceleration is further increased in the vacuum in the vertical direction, and a series of full blade impeller water turbines aiming at power generation more than 25 times are provided in multiple stages. Various energy conservation cycle coalescence engine.   The existing hydroelectric power generation is increased by a drop of 200m or less with a pump (1H) + gravity acceleration in vacuum is further accelerated vertically downward, and a series of full blade impeller water turbines aiming at the same amount of water generation 12 times or more are provided in multiple stages Various energy conservation cycle coalescence engine.   In addition to the existing hydroelectric power generation with a pumping pump (1H), a drop of 1000m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, and a series of all blade impellers aiming at the same amount of water generation more than 200 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation by a pumping pump (1H), a drop of 1000m is increased + solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward, and a series of all blade impellers aiming at the same amount of water generation more than 100 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation by a pumping pump (1H), a drop of 1000m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, and a series of all blade impellers aiming to generate the same amount of water more than 50 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pumping pump (1H), the head is increased by 1000m + solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward, and a series of all blade impellers aiming at power generation of 25 times the same water volume Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pumping pump (1H), a drop of 1000m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming at the power generation amount of 12 times the same water volume or more Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pumping pump (1H), the head increased by 800m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming to generate the same amount of water more than 200 times in series. Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation by a pumping pump (1H), a drop of 800m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, accelerating gravitational acceleration in the vertical direction, aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pump (1H), the head increases by 800m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, and a series of all blade impellers aiming to generate the same amount of water more than 50 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pumping pump (1H), a drop 800m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming to generate more than 25 times the same amount of water Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pump (1H), the head is increased by 800m + solar heater (2) + gravitational acceleration is added in the vertical direction in the vacuum, and a series of all blade impellers aiming for the same amount of water generation more than 12 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pumping pump (1H) increased by 600m + solar heater (2) + gravity acceleration in a vacuum, vertically accelerating vertically downward, a series of all blade impellers aiming at the same amount of power generation 200 times or more Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pumping pump (1H), a drop of 600m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, accelerating gravity downward vertically, aiming for the same amount of water generation 100 times or more. Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pumping pump (1H), a drop 600m increase + solar heater (2) + gravity acceleration in a vacuum, vertically accelerating vertically downward, a series of all blade impellers aiming at power generation more than 50 times the same amount of water Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation by a pumping pump (1H), a drop of 600m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, and a series of all blade impellers aiming to generate the same amount of water more than 25 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pump (1H), the head is increased by 600m + solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to achieve the same amount of water 12 times or more. Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation by a pumping pump (1H), the head height increases by 400m + solar heater (2) + additional gravity acceleration in vacuum, vertically accelerating vertically downward, a series of all blade impellers aiming at the same amount of water generation 200 times or more Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pumping pump (1H), the head increases by 400m + solar heater (2) + additional acceleration in the vertical direction in the vacuum, and a series of all blade impellers aiming for the same amount of water generation more than 100 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation with a pumping pump (1H), the head is increased by 400m + solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward, and a series of all blade impellers aiming at the same amount of power generation 50 times or more Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation by a pumping pump (1H), a 400m head drop + solar heater (2) + additional acceleration in the vertical direction in the vacuum, and a series of all blade impellers aiming to generate the same amount of water more than 25 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation by a pumping pump (1H), the head is increased by 400m + solar heater (2) + gravity acceleration is accelerated in the vertical direction in the vacuum, and a series of all blade impellers aiming at the same amount of water generation more than 12 times Various energy storage cycle coalescing engine with multiple water turbines.   In the existing hydroelectric power generation, a head pump increases by 200m or less with a pump (1H) + solar heater (2) + gravity acceleration is further accelerated in the vertical downward direction in a vacuum, and the series of blades aiming at the same amount of water generation more than 200 times Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation with a pump (1H) with a drop of 200m or less + solar heater (2) + additional acceleration in the vertical direction in the vacuum, and a series of all blades aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation with a pump (1H) with a drop of 200m or less + solar heater (2) + additional acceleration in the vertical direction in the vacuum to accelerate the vertical vertical motion, aiming for the same amount of water generation 50 times or more Various energy storage cycle coalescing engines with multiple impeller water turbines.   In the existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum, and the series of moving blades aiming for the same amount of water generation 25 times or more Various energy storage cycle coalescing engines with multiple impeller water turbines.   In the existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, and the series of blades aiming at the same amount of water generation 12 times or more Various energy storage cycle coalescing engines with multiple impeller water turbines.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum to generate more than 200 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive power of around 374 degrees with solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward to generate more than 100 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive power of around 374 degrees with solar heater (2) + additional acceleration of gravity in vacuum vertically, generating more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive force of around 374 degrees with solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + acceleration of gravity is further accelerated vertically in the vacuum to generate more than 100 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 200m or less with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is more than 200 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the vaporization explosive force around 374 degrees with the solar heater (2) + the acceleration of gravity in the vacuum is further accelerated vertically downward, the same amount of water more than 50 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + vaporization explosive force of around 374 degrees by solar heater (2) + gravity acceleration is further accelerated vertically in vacuum, and the same water volume is more than 25 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, increase by 200m or less with pump (1H) + vaporization explosive force of around 374 degrees with solar heater (2) + additional acceleration of gravity in vacuum in the vertical direction, the same amount of water more than 12 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive power of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum, vertically generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive power of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, generating the same amount of water more than 100 times Combined engine with various energy conservation cycles with multistage turbine blade turbines in series.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, generating the same amount of water more than 50 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive power of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydropower generation with 800m drop by pumping pump (1H) + more than 300 degrees vaporization explosive power with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum to generate 50 times or more the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 25 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive power of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum, generating the same amount of water more than 50 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive power of 300 degrees or more with the solar heater (2) + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration of 200% or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + 300 degree or more vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration downward in vacuum, same amount of water more than 50 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + vaporization explosive force of 300 degrees or more by solar heater (2) + gravitational acceleration is further accelerated vertically under vacuum, and the same amount of water is 25 times or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 300 degree or more vaporization explosive force with a solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, and the same amount of water is 12 times or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 200 degree or more vaporization explosive power with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 200 degree or more vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive force with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive power with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 200 degree or more vaporization explosive power with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + 200 degrees or more of vaporization explosive force by a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 50 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a vaporization explosive force of 200 degrees or more with a solar heater (2) + the acceleration of gravity in the vacuum is accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + 200 ° C or more vaporization explosive force with a solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosion force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 400m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + more than 200 degrees of vaporization explosive power with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, the same amount of water is more than 200 times Various energy storage cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 200 degree or more vaporization explosive force with a solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, the same amount of water is more than 100 times Various energy storage cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 200 degrees or more of vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 50 times or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosion force of 200 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, and the same amount of water more than 25 times Various energy storage cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 12 times or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   In existing hydroelectric power generation, the head is increased by 1000m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated downward in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, increase in drop by 1000m with pumping pump (1H) + vaporization explosive force of 200 degrees or less with solar heater (2) + additional acceleration of gravity acceleration in vacuum vertically to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 200 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 100 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, the head is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 400m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 25 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive force of 200 degrees or less with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 200 times or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 50 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 25 times or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, increase by 200m or less with pump (1H) + vaporization explosive force of 200 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 12 times Various energy storage cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation.   In existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 100 degrees or less with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating the same amount of water more than 50 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, the head is increased by 1000m with the pump (1H) + the vaporization explosive force of 100 degrees or less with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, increase in drop by 1000m with pumping pump (1H) + vaporization explosive force of 100 degrees or less with solar heater (2) + additional acceleration of gravity in vacuum vertically, generating 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Vaporization explosive power of 100 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 100 degrees or less by solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive power of 100 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 50 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically under vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive power of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 200 times or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with the pump (1H) + the vaporization explosive force of 100 degrees or less with the solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 50 times Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 25 times or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 12 times or more Various energy conservation cycle coalescing engines with multiple stages of all-blade bouncing water turbines aiming at power generation.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 800m with the pump (1H) + the solar gas heater (2) has the maximum vaporization and explosive power + the acceleration of gravity is further accelerated downward in the vacuum to generate the same amount of water more than 200 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 800m with the pump (1H) + the solar gas heater (2) has the maximum vaporization explosive force + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 50 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + Solar gas heater (2) has a maximum vaporization and explosive force. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + the solar gas heater (2) increases the vaporization explosive power to the maximum + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 200 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + the solar gas heater (2) increases the vaporization explosion power to the maximum + the acceleration of gravity is further accelerated vertically in the vacuum, and the amount of water generated is more than 100 times the same. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosion power + a gravitational acceleration in a vacuum is further accelerated vertically downwards to generate the same amount of water more than 25 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation is increased by 400m by pumping pump (1H) + maximum vaporization explosive power by solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, and the same amount of water is generated more than 200 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + Solar gas heater (2) with maximum vaporization explosive power + Gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosion power + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 50 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + Solar gas heater (2) has a maximum vaporization and explosive force + Gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration vertically in the vacuum, generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, increase of drop 200m or less with pumping pump (1H) + maximum increase of vaporization explosive power with solar heater (2) + acceleration of gravity in vacuum further downward acceleration to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Increased drop by 200m or less with pumping pump (1H) to existing hydroelectric power generation + Increased vaporization explosion power to maximum with solar heater (2) + Accelerated gravity acceleration in vacuum vertically, generating more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + the vaporization explosive power is maximized with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   The existing hydroelectric power generation has a drop of 200m or less with a pump (1H) + Solar gas heater (2) has a maximum increase in vaporization and explosion power + Accelerates gravitational acceleration vertically in the vacuum to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In addition to existing hydroelectric power generation, a surface-floor solar heater (2) + Gravity acceleration is added in a vacuum, vertically accelerating vertically, and a series of all-blade propulsion turbine water turbines aiming at power generation of 200 times or more are provided in multiple stages Various energy conservation cycle coalescence engine.   In addition to existing hydroelectric power generation, a surface floating solar heater (2) + Gravity acceleration is added in a vacuum in the vertical direction, and a series of all blade impeller water turbines aiming at power generation of the same amount of water more than 100 times are provided in multiple stages. Various energy conservation cycle coalescence engine.   In addition to the existing surface hydropower solar heater (2) + Gravity acceleration is added in the vacuum in the vertical direction, and a series of all blade impeller water turbines aiming at power generation more than 50 times the same amount of water are provided in multiple stages Various energy conservation cycle coalescence engine.   In addition to the existing surface hydropower solar heater (2) + Accelerating gravity acceleration in a vacuum vertically, the series of all-blade propulsion water turbines with the same amount of water more than 25 times are provided in multiple stages. Various energy conservation cycle coalescence engine.   In addition to the existing surface hydroelectric power generator (2) + gravity acceleration in a vacuum in the vertical direction, a series of all blade impeller water turbines aiming at the same amount of water generation more than 12 times are provided in multiple stages Various energy conservation cycle coalescence engine.   In addition to existing hydroelectric power generation, a surface-floor solar heater (2) + Gravity acceleration is added in a vacuum, vertically accelerating vertically, and a series of all-blade propulsion turbine water turbines aiming at power generation of 200 times or more are provided in multiple stages Various energy conservation cycle coalescence engine.   In addition to existing hydroelectric power generation, a surface floating solar heater (2) + Gravity acceleration is added in a vacuum in the vertical direction, and a series of all blade impeller water turbines aiming at power generation of the same amount of water more than 100 times are provided in multiple stages. Various energy conservation cycle coalescence engine.   In addition to the existing surface hydropower solar heater (2) + Gravity acceleration is added in the vacuum in the vertical direction, and a series of all blade impeller water turbines aiming at power generation more than 50 times the same amount of water are provided in multiple stages Various energy conservation cycle coalescence engine.   In addition to the existing surface hydropower solar heater (2) + Accelerating gravity acceleration in a vacuum vertically, the series of all-blade propulsion water turbines with the same amount of water more than 25 times are provided in multiple stages. Various energy conservation cycle coalescence engine.   In addition to the existing surface hydroelectric power generator (2) + gravity acceleration in a vacuum in the vertical direction, a series of all blade impeller water turbines aiming at the same amount of water generation more than 12 times are provided in multiple stages Various energy conservation cycle coalescence engine.   In addition to existing hydroelectric power generation pump (1H) + surface floating solar heater (2) + gravity acceleration in the vacuum, vertically accelerating vertically downward, a series of full blade impeller water that aims at the same amount of water generation 200 times or more Various energy storage cycle coalescence engine with multiple stages of turbines.   In addition to existing hydroelectric power generation pump (1H) + surface floating solar heater (2) + gravity acceleration in a vacuum, accelerating gravity downward vertically, aiming to generate power more than 100 times the same water volume Various energy storage cycle coalescence engine with multiple stages of turbines.   Existing hydroelectric power generation pump (1H) + surface-floating solar heater (2) + gravity acceleration in a vacuum, vertically accelerating vertically downward, a series of all-wheel blade bouncing water that aims at the same amount of power generation 50 times or more Various energy storage cycle coalescence engine with multiple stages of turbines.   In addition to existing hydroelectric power generation pump (1H) + surface floating solar heater (2) + additional gravity acceleration in vacuum, accelerating gravity downward vertically, aiming for power generation more than 25 times the same water volume Various energy storage cycle coalescence engine with multiple stages of turbines.   Existing hydroelectric power generation pump (1H) + surface-floor solar heater (2) + gravity acceleration in a vacuum, vertically accelerating vertically downward, a series of full blade impeller water that aims for power generation more than 12 times the same water volume Various energy storage cycle coalescence engine with multiple stages of turbines.   Existing hydropower generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   In addition to the existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated 200 times or more. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   In addition to the existing hydroelectric power generation pump (1H) + surface-floor type solar heater (2), vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated more than 200 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 100 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pumping pump (1H) + surface floating solar heater (2), vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   For existing hydropower generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 50 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum, and accelerate vertically downward to generate the same amount of water more than 50 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum, and accelerate vertically downward to generate more than 50 times the same amount of water This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, and accelerate vertically downward to generate more than 50 times the same amount of water This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 50 times or more This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravity acceleration in vacuum vertically, the same amount of water more than 25 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum, and accelerate vertically downward to generate the same amount of water more than 25 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water more than 25 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 25 times or more This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 25 times or more This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   For existing hydroelectric power generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated more than 12 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum, vertically accelerated, the same water volume 12 times or more This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 12 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   For existing hydroelectric power generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is generated 12 times or more This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same water volume 12 times or more This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of around 374 degrees + gravity acceleration in vacuum, aiming for the same maximum water generation by accelerating gravitational acceleration vertically downward Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 300 degrees or more + additional acceleration of gravity in vacuum, aiming for maximum power generation with the same amount of water Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, aiming at the same maximum water generation Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force below 200 degrees + gravity acceleration in vacuum, aiming for the same maximum water generation by accelerating gravitational acceleration vertically downward Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 100 degrees or less + additional acceleration of gravity in vacuum, aiming for the same maximum water generation Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Increased head by 1200m with existing pumps (1H) + solar floating heater (2), etc. + In-vacuum acceleration of gravitational acceleration in the vertical direction, aiming for the same amount of water more than 200 times in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Increased head by 1200m with existing pumps (1H) + Solar floating heater (2), surface-floating type, etc. + Accelerating gravity acceleration in vacuum vertically, aiming at power generation of 100 times or more with the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Increased head by 1200m with existing pumps (1H) + Solar surface heater (2) with floating surface, etc. + Accelerating gravity acceleration in vacuum vertically, aiming for power generation more than 50 times the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Increased head by 1200m with existing pumps (1H) + Solar floating heater (2), surface-floating type, etc. + In-vacuum acceleration of gravitational acceleration in the vertical downward direction, aiming for the same amount of water more than 25 times in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Increased head by 1200m with pump (1H) to existing hydropower + Solar surface heater (2) such as surface-floating type + Accelerating gravitational acceleration vertically in vacuum, aiming for power generation more than 12 times the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation, increase the drop by 1000m with a pump (1H) + solar surface heater (2) such as a surface-floating type + Accelerate gravitational acceleration vertically in the vacuum, aiming at the same amount of water generation 200 times or more in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation with a pumping pump (1H), a drop of 1000m is increased + a solar floating heater such as a surface-floating type, etc. Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation with a pumping pump (1H) 1000m drop + water surface floating type solar heater (2) + additional gravity acceleration in a vacuum vertically in series, aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar surface heater (2) such as a surface-floating type + In-vacuum acceleration of gravity is further accelerated vertically in series, aiming for the same amount of water generation 25 times or more Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation with a pumping pump (1H) 1000m drop + water surface floating type solar heater (2) + additional gravity acceleration in the vertical direction in the vertical direction, aiming for the same amount of water generation 12 times or more in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + a series of accelerations of gravity acceleration in a vacuum, aiming for the same amount of water more than 200 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + a series of accelerations of gravity acceleration in a vacuum, aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + a series of accelerations of gravity acceleration in a vacuum, aiming to generate the same amount of power more than 50 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater (2) such as a surface-floating type + a series of vertical accelerations to accelerate the gravity acceleration in the vacuum, aiming to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + a series of accelerations in the vacuum to accelerate the gravitational acceleration vertically downward, aiming at the same amount of water more than 12 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar surface heater such as a surface-floating type (2) + a gravitational acceleration is added in the vertical downward direction in a vacuum, aiming to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + Solar surface heater (2) such as a surface-floating type + In-vacuum acceleration of gravity is further accelerated vertically downward to achieve the same amount of water more than 100 times in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar surface heater such as a surface-floating type (2) + a gravitational acceleration is added in the vertical direction in a vacuum, and a series aiming at a power generation amount of 50 times the same water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation, the pump increases by a drop of 600m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + a series of accelerating gravitational acceleration vertically in the vacuum, aiming to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar surface heater such as a surface-floating type (2) + a gravitational acceleration is added in the vertical direction in a vacuum, and a series aiming at a power generation amount of 12 times the same water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a solar surface heater (2) such as a surface-floating type + a series of accelerations of gravity acceleration in a vacuum, aiming to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a solar surface heater (2) such as a surface-floating type + a series of accelerations of gravity acceleration in a vacuum, aiming to generate more than 100 times the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + a series of accelerations of gravity acceleration in a vacuum, aiming to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + a series of accelerations of gravity acceleration in a vacuum, aiming to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   A 400m drop in the existing hydroelectric power generation with a pump (1H) + Solar heater (2) such as a surface-floating type + A series of accelerations of gravity acceleration in a vacuum, aiming to generate more than 12 times the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + surface-floor solar heater (2) + additional gravity acceleration in the vacuum, vertically accelerating the whole water in series, aiming for power generation more than 200 times the same water volume Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + surface-floor type solar heater (2) + additional gravity acceleration in a vacuum, vertically accelerating the whole water in series, aiming for power generation over 100 times the same water volume Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a surface-floor solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to achieve the same amount of water more than 50 times in series Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + surface-floor type solar heater (2) + additional gravity acceleration in the vacuum, vertically accelerating the whole water in series, aiming for the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + surface-floor type solar heater (2) + additional gravity acceleration in a vacuum, vertically accelerating the whole water in series, aiming for power generation of 12 times or more. Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + surface-fed solar heater (2) + additional gravity acceleration in a vacuum, vertically accelerating the whole water in series, aiming for the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 600m with a pumping pump (1H) + surface-floor type solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to achieve the same amount of water more than 100 times in series Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + surface-fed solar heater (2) + additional gravity acceleration in a vacuum, vertically accelerating the whole water in series, aiming for the same amount of water more than 50 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   Existing hydroelectric power generation with a pump (1H) with a drop of 600m + water surface floating solar heater (2) + additional acceleration in the vertical direction in vacuum, aiming for power generation of the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 600m with a pumping pump (1H) + surface-floor solar heater (2) + additional gravity acceleration in the vacuum, vertically accelerating in the series, aiming to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + surface-floating solar heater (2) + additional gravity acceleration in a vacuum, vertically accelerating the whole water in series, aiming for the same amount of water more than 200 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + water surface floating solar heater (2) + additional gravity acceleration in the vacuum, vertically accelerating the whole water in series, aiming for the same amount of water more than 100 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + water surface levitated solar heater (2) + additional gravity acceleration in the vacuum, vertically accelerating the whole water in series, aiming for the same amount of power more than 50 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + water-floating solar heater (2) + additional gravity acceleration in the vacuum, vertically accelerating the whole water in series, aiming to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   The existing hydroelectric power generation is increased by 400m with a pumping pump (1H) + surface floating solar heater (2) + additional gravity acceleration in a vacuum, vertically accelerating vertically to achieve the same amount of water 12 times or more Various energy storage cycle coalescing engines equipped with multiple stages of bucket turbine water turbines.   In the existing hydroelectric power generation, a drop of 200m or less is increased by a pumping pump (1H) + a surface-floating solar heater (2) + a gravitational acceleration is added in the vertical direction in a vacuum, aiming at the same amount of water more than 200 times in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a surface-floor solar heater (2) + a gravitational acceleration is added in a vertical downward direction in a vacuum, aiming at the same amount of water generation more than 100 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + surface-floor type solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming to generate the same amount of water more than 50 times in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + surface-floor solar heater (2) + additional acceleration in the vertical direction in vacuum, aiming to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   In the existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a surface-floating solar heater (2) + a gravitational acceleration is added in the vertical direction in a vacuum, aiming to generate the same amount of water more than 12 times Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 800m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a surface-expanding solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and the vertical acceleration is accelerated downward. Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a surface-expanding solar heater (2) with a vaporization explosive force of around 374 degrees + gravity acceleration in a vacuum in the vertical direction, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a surface-expanding solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in vacuum, and the acceleration of gravity in the vertical downward direction, the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration to reduce the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a surface-expanding solar heater (2), the vaporization explosive force of around 374 degrees + the acceleration of gravity in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floating solar heater (2) that accelerates the vaporization force around 374 degrees + the acceleration of gravity in a vacuum and accelerates the gravity downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floor solar heater (2) that accelerates the vaporization force around 374 ° C and accelerates the gravitational acceleration vertically in a vacuum to achieve the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of series rotor blades and water turbines aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescing engines equipped with multistage turbine blade turbines in series aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescing engines equipped with multiple stages of series rotor blade bouncing water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy storage cycle coalescing engines with multistage turbine blade turbines in series that aim to generate power more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + accelerating gravitational acceleration vertically in a vacuum, with the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + accelerating the gravitational acceleration in a vacuum vertically, Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 300 degree or more vaporization explosive force with a surface-floor solar heater (2) + Gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 300 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 300 degree or more vaporization explosive force with a surface-floor type solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + 300 ° C or more vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + surface-expanding solar heater (2), vaporization explosive force of 300 degrees or more + additional acceleration of gravity in vacuum, vertically below 25% Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 300 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface surfacing solar heater (2) with a vaporization explosive force of more than 300 degrees + gravity acceleration in a vacuum, vertically accelerated, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface-exposure solar heater (2) with a vaporization explosive force of 300 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + further accelerate the gravitational acceleration vertically in the vacuum, the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + further accelerate the gravitational acceleration vertically in the vacuum, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation is increased by 400m with pumping pump (1H) + vaporization explosive force of 300 degrees or more with surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + more than 300 degrees of vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 300 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + 300 degree or more vaporization explosive force with a surface floating solar heater (2) + Gravitational acceleration is further accelerated vertically under vacuum, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) increases the vaporization explosive force of 300 degrees or more + further accelerates the gravitational acceleration in the vacuum, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of all-blade propulsion turbine water turbines aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of all-blade impeller turbine turbines aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines equipped with multiple stages of series rotor blade bouncing water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multistage turbine blade turbines in series that aim to generate power more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a surface surfacing solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) increases the vaporization explosive force of 200 degrees or more + further accelerates the gravitational acceleration vertically in the vacuum, with the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward to achieve the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation with a pumping pump (1H) increased by 1000m + water-floating solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum further accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 200 degree or more vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + more than 200 degrees of vaporization explosive force with a surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + more than 200 degrees of vaporization explosive power with a surface-floor solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation is increased by 800m by pumping pump (1H) + vaporization explosive force of 200 degrees or more by surface-floor solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 600m and a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more. Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a vaporization explosive force of 200 degrees or more with a surface floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + accelerating gravitational acceleration vertically in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + accelerating the gravitational acceleration in a vacuum vertically, Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with an evaporation explosive force of 200 degrees or more + Gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes explosive force of 200 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward to achieve the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that evaporates more than 200 degrees + a gravitational acceleration in a vacuum and accelerates vertically downward to achieve the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy storage cycle coalescing engines with multiple stages of all-blade impeller turbine turbines aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy conservation cycle coalescing engines equipped with multiple stages of series rotor blade bouncing water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy storage cycle coalescing engines with multistage turbine blade turbines in series that aim to generate power more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation is increased by 1000m with a pumping pump (1H) + 200 degree or less vaporization explosive force with a surface-floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less + a gravitational acceleration in a vacuum that is accelerated vertically downward to the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m and a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less. Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + vaporization explosive force of 200 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a surface floating solar heater (2) + a gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floor solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + additional acceleration of gravity in a vacuum in the vertical direction, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floating solar heater (2) that vaporizes less than 200 ° C + accelerates the gravitational acceleration vertically in a vacuum. Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes less than 200 degrees + gravity acceleration in a vacuum and further accelerates the gravitational acceleration vertically downward to achieve the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of all-blade propulsion turbine water turbines aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of all-blade impeller turbine turbines aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines equipped with multiple stages of series rotor blade bouncing water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multistage turbine blade turbines in series that aim to generate power more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 1000m with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floor solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum and a vertical acceleration of 25%. Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Vaporization explosive force of 100 degrees or less with surface floating solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates vertically down to the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum that is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes and explodes below 100 degrees + accelerates the gravitational acceleration vertically in a vacuum, with the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of all-blade propulsion turbine water turbines aiming at power generation more than 200 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multiple stages of all-blade impeller turbine turbines aiming at power generation more than 100 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation more than 50 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy conservation cycle coalescing engines equipped with multiple stages of series rotor blade bouncing water turbines aiming at power generation more than 25 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines with multistage turbine blade turbines in series that aim to generate power more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + further accelerates the gravitational acceleration in a vacuum, vertically accelerating by 200 times the same amount of water Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased with a pumping pump (1H) + a vaporization explosive force is increased to a maximum with a surface-floating solar heater (2) + gravity acceleration is accelerated vertically downward in a vacuum, and the same amount of water is increased by 100 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force is increased to a maximum by a surface-floating solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is multiplied by 50 Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force. Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased with a pumping pump (1H) + a vaporization explosive force is increased to a maximum with a surface-floating solar heater (2) + gravity acceleration is accelerated vertically downward in a vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H), the vaporization explosive power is maximized with a surface-floor solar heater (2), and the acceleration of gravity is further accelerated vertically in the vacuum to increase the same amount of water by 200 times. Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + maximum increase of vaporization explosive power by surface floating solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration, 100 times the same amount of water Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + maximum increase of vaporization explosive power by surface floating solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration, 50 times the same amount of water Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H), the vaporization explosive power is increased with the surface-floating solar heater (2), and the acceleration of gravity is further accelerated in the vertical direction in a vacuum to increase the same amount of water by 25 times. Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + the surface-exposure solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force is increased to a maximum by a surface-floating solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum, and the same amount of water is 200 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a surface-expanded solar heater (2) is increased to the maximum vaporization explosive force. Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in a vacuum, and the same amount of water is 50 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by the pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 25 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + the surface-floating solar heater (2) is increased to the maximum vaporization explosive force + gravitational acceleration is further accelerated in the vertical direction in vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + Accelerates gravitational acceleration vertically in the vacuum, and the same amount of water 200 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase vaporization power to maximum with surface floating solar heater (2) + Accelerate gravitational acceleration vertically in vacuum, 100 times the same water volume Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase to maximum vaporization explosive power with surface floating solar heater (2) + Accelerate gravitational acceleration in vacuum vertically and increase water volume by 50 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + Accelerates gravitational acceleration vertically in the vacuum and increases the same amount of water by 25 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a vaporization explosive power is increased to a maximum by a surface floating solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum, vertically accelerating the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum, vertically accelerating the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration is added in the vertical direction to accelerate vertically downward, and a series of all-stage bladed impeller water turbines aiming at the same amount of power generation 200 times or more Various energy conservation cycle coalescence engine established in.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration is added in the vertical direction in the vertical direction, and a series of all-stage impeller-driven turbine water turbines aiming at power generation of more than 100 times the same amount of water Various energy conservation cycle coalescence engine established in.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration is added in the vertical direction in the vertical direction. Various energy conservation cycle coalescence engine established in.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration is added in the vertical direction in the vertical direction. Various energy conservation cycle coalescence engine established in.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration added in vacuum, vertically accelerating vertically downward, multiple stages of series full blade impeller water turbine aiming at power generation more than 12 times the same water volume Various energy conservation cycle coalescence engine established in.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration added in vacuum vertically downward, multistage series full-blade bouncing vehicle water turbine aiming at power generation more than 200 times the same amount of water Various energy conservation cycle coalescence engine established in.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration is added in the vertical direction in the vertical direction, and a series of all-stage impeller-driven turbine water turbines aiming at power generation of more than 100 times the same amount of water Various energy conservation cycle coalescence engine established in.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration is added in vacuum, vertically accelerating downwards vertically, and a series of all-stage blade impeller water turbines aiming at power generation more than 50 times Various energy conservation cycle coalescence engine established in.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration added in vacuum vertically downward, multistage series full blade impeller water turbine aiming at power generation more than 25 times the same water volume Various energy conservation cycle coalescence engine established in.   Addition to existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Gravity acceleration added in vacuum vertically downward, multistage series full blade impeller water turbine aiming at power generation more than 12 times the same water volume Various energy conservation cycle coalescence engine established in.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in the vacuum, full series motion aiming at the same amount of power generation 200 times or more Various energy storage cycle coalescing engines with multi-stage blade turbines.   Existing full-scale hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in the vacuum, full-motion in series aiming at the same amount of water more than 100 times Various energy conservation cycle coalescing engines with multi-stage blade turbines.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in vacuum, full-motion in series aiming at power generation more than 50 times the same water volume Various energy conservation cycle coalescing engines with multi-stage blade turbines.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in the vacuum, series full motion aiming at the same amount of water generation more than 25 times Various energy conservation cycle coalescing engines with multi-stage blade turbines.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) + additional acceleration in the vertical direction in the vacuum, full-scale series motion aiming at the same amount of water generation more than 12 times Various energy conservation cycle coalescing engines with multi-stage blade turbines.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same water volume 200 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 300 degrees or more + Gravitational acceleration is accelerated vertically downward in vacuum, the same amount of water 200 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) evaporating explosive force of 200 degrees or more + accelerating gravitational acceleration vertically in vacuum, same water volume 200 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same water volume is 200 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 100 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Add to existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2), vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum, vertically accelerated, 100 times the same water volume Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same water volume 50 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Add to existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 25 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + Gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + Gravity acceleration is accelerated vertically downward in vacuum, the same amount of water 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force below 200 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same maximum water volume Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, and the same water maximum power generation Combined engine with various energy conservation cycles with multistage turbine blade turbines in series.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and the same water maximum power generation Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same water maximum power generation Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward to generate the same maximum amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, increase the head by pumping pump (1H) + solar heating (2b) such as suspension bridge (2b) + solar heater (2) + add gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   For existing hydroelectric power generation, increase the head by pumping pump (1H) + solar heating (2b), such as suspension bridge (2b) + solar acceleration (2) + gravity acceleration in vacuum is accelerated vertically downward to increase the amount of generated water by 100 times or more Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   For existing hydroelectric power generation, increase the head with a pump (1H) + solar heating (2b) such as a solar thermal expansion suspension bridge (2b) + add gravity acceleration in the vacuum vertically in the vacuum, and generate the same amount of water more than 50 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   For existing hydroelectric power generation, increase the head with a pump (1H) + Solar heating (2b) such as a solar heat increase suspension bridge (2b) + Accelerate gravity acceleration in the vacuum vertically, and generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   For existing hydroelectric power generation, increase the head with a pump (1H) + Solar heating (2b) such as a suspension bridge (2b) + Addition of solar acceleration (2) + vacuum to accelerate the gravity acceleration vertically downward and increase the amount of generated water 12 times or more Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + solar heat increase suspension solar bridge (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 200 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation by pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) etc. Solar power heater (2) + Gravity acceleration is further accelerated vertically downward in vacuum, same amount of water more than 100 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation by pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate 50% or more of the same amount of water This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 25 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + solar heating increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of water generated is more than 12 times the same. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravity acceleration is further accelerated downward in the vacuum, and the same amount of water is generated more than 200 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation with a pump (1H) increased by 800m + solar heat increase suspension solar bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Add to existing hydroelectric power generation by 800m drop with pump (1H) + Solar heat increase suspension bridge (2b), etc. Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, the same amount of water more than 50 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + solar heating (2b) such as suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 25 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar heating (2b) such as a solar thermal expansion suspension bridge (2b) + gravity acceleration in the vacuum is further accelerated vertically downward, and the same amount of water is generated more than 12 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   For existing hydroelectric power generation, the pump is increased by 600m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 200 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   For existing hydroelectric power generation, increase in head by 600m with pump (1H) + solar heating (2b) such as suspension bridge (2b) + additional solar acceleration (2) + vacuum acceleration in the vertical direction, the same amount of water more than 100 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   For existing hydroelectric power generation, a 600m drop with a pump (1H) + solar heating (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum, vertically generating the same amount of water 50 times or more This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation with a pump (1H) with a drop of 600m + solar heating increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 25 times the same amount of water This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   For existing hydroelectric power generation, a 600m drop with a pump (1H) + Solar heating (2b) such as a suspension bridge (2b) + Additional acceleration of gravity in the vacuum vertically in the vacuum to increase the amount of water more than 12 times the same amount of water This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation with a pump (1H) increased by 400m + solar heating increased suspension solar bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of generated water is more than 200 times the same. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated 50 times or more. This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   Existing hydroelectric power generation with pumping pump (1H) increased by 400m + solar heat increase suspension bridge (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 25 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 12 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   For existing hydroelectric power generation, increase by 200m or less with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + additional acceleration of gravity acceleration in vacuum, generating more than 100 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   In existing hydroelectric power generation, increase by 200m or less with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + additional acceleration of gravity acceleration in vacuum, generating more than 25 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + acceleration of gravitational acceleration downward in vacuum to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming for quantity.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Existing hydroelectric power generation with pumping pump (1H) increased by 1000m + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity in the vacuum downward in the vertical direction. Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Existing hydroelectric power generation with pumping pump (1H) 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Existing hydroelectric power generation with pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to increase the amount of water generation by 12 times or more. Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Add 800m drop to the existing hydroelectric power generation pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 200 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Add 800m drop with existing pump for pumping water (1H) + Suspension bridge (2b) Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum to increase the amount of generated water by 100 times or more Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m increase + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum downwards, the same amount of water more than 50 times the amount of power generation Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   In existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   In existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of generated water is more than 200 times the same. Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Add 600m drop to existing hydroelectric power generation with pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration in vacuum is accelerated vertically downward to increase power generation by 100 times or more. Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated downward in the vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Existing hydroelectric power generation with a pumping pump (1H) + 600m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Existing hydroelectric power generation with a pump (1H) with a head drop of 400m + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum, vertically generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   In existing hydroelectric power generation with a pumping pump (1H) 400m head drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   Existing hydroelectric power generation with a pumping pump (1H) 400m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blades and targeted water turbines.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 200 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum downward, the same amount of water more than 100 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, the same amount of water more than 50 times the amount of power generation This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 25 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar thermal increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 12 times This is a combined engine with various energy conservation cycles equipped with multi-stage series turbine blades and water turbines.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated downward Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) vaporization explosive force of 300 degrees or more with the solar heater (2) Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines that aim to generate electricity more than 12 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines with multistage cascade turbines that aim to generate electricity more than 200 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines with multiple stages of series rotor blade water turbine water turbines aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation of 50 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade water turbines aiming at power generation more than 25 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation more than 12 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines with multistage cascade turbines that aim to generate electricity more than 200 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines with multiple stages of series rotor blade water turbine water turbines aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation of 50 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade water turbines aiming at power generation more than 25 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation more than 12 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines with multistage cascade turbines that aim to generate electricity more than 200 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines with multiple stages of series rotor blade water turbine water turbines aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation of 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade water turbines aiming at power generation more than 25 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation more than 12 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines with multistage cascade turbines that aim to generate electricity more than 200 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines with multiple stages of series rotor blade water turbine water turbines aiming at power generation more than 100 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation of 50 times or more.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade water turbines aiming at power generation more than 25 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy storage cycle coalescing engines with multiple stages of series turbine blades and water turbines aiming at power generation more than 12 times the amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation + solar heater (2) + additional acceleration in the vertical direction in vacuum, aiming at the same amount of power generation 200 times or more in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming at the amount of power generation more than 100 times the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming at the same amount of power generation 25 times or more in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydropower generation + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming at the same amount of water generation 12 times or more in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation + solar heater (2) + additional acceleration in the vertical direction in vacuum, aiming at the same amount of power generation 200 times or more in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming at the amount of power generation more than 100 times the same amount of water Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydroelectric power generation + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming at the same amount of power generation 25 times or more in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   The solar thermal augmentation suspension bridge (2b) is brought close to the sunlight at right angles to the existing hydropower generation + solar heater (2) + additional acceleration in the vertical direction in the vacuum, aiming at the same amount of water generation 12 times or more in series Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought perpendicular to sunlight + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, same water volume 200 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) + gravitational acceleration is accelerated vertically downward in vacuum, the same amount of water is 100 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is moved perpendicular to sunlight + solar heater (2) + gravitational acceleration is accelerated vertically downward in the vacuum, the same amount of water 50 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water is 25 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is moved perpendicular to sunlight + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines with multistage turbine blade turbines that are connected in series aiming at power generation.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 200 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 200 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 100 times the same amount of water.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 100 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 50 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 25 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 25 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series turbine blades and turbines that accelerate and aim for power generation of 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines that are equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that accelerate and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines with multiple stages of series turbine blades and turbine turbines that accelerate and aim for the same maximum water output.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines with multiple stages of series turbine blades and turbine turbines that accelerate and aim for the same maximum water output.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines with multiple stages of series turbine blades and turbine turbines that accelerate and aim for the same maximum water output.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy storage cycle coalescing engines with multiple stages of series turbine blades and turbine turbines that accelerate and aim for the same maximum water output.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blades and turbine turbines that accelerate and aim for the same maximum water output.   For existing hydroelectric power generation, increase the head with a pump (1H) + increase the solar heat suspension suspension bridge (2b) perpendicular to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 1000m with a pump (1H) + increase the solar heat suspension bridge (2b) perpendicular to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 1000m with a pump (1H) + increase the solar heat suspension bridge (2b) perpendicular to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum In addition, various energy conservation cycle coalescing engines equipped with a series of all-stage blade spring water turbines in multiple stages aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum Various energy conservation cycle coalescing engines with multiple stages of series rotor blades and turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum In addition, various energy storage cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming to generate power more than 12 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines equipped with multistage cascade turbine blade turbines aiming at power generation more than 200 times the same water volume.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines with multistage turbine blade turbines that produce the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy conservation cycle coalescing engines with multiple stages of series turbine blade water turbines aiming at power generation more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines with multistage stages of series all-bladed impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 200 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-bladed impeller water turbines accelerating vertically downward and aiming for power generation of the same amount of water 100 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines that are equipped with multiple stages of all-blade series impeller water turbines that accelerate vertically downward and aim to generate the same amount of water 50 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines that are provided in multiple stages and are connected in series to a series of all-blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines with multistage stages of series-rotor-bladed impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of series all-bladed impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 200 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-bladed impeller water turbines accelerating vertically downward and aiming for power generation of the same amount of water 100 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that are equipped with multiple stages of all-blade series impeller water turbines that accelerate vertically downward and aim to generate the same amount of water 50 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that are provided in multiple stages and are connected in series to a series of all-blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of series-rotor-bladed impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of series all-bladed impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 200 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-bladed impeller water turbines accelerating vertically downward and aiming for power generation of the same amount of water 100 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that are equipped with multiple stages of all-blade series impeller water turbines that accelerate vertically downward and aim to generate the same amount of water 50 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that are provided in multiple stages and are connected in series to a series of all-blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines with multistage stages of series-rotor-bladed impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of series all-bladed impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 200 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-bladed impeller water turbines accelerating vertically downward and aiming for power generation of the same amount of water 100 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines that are equipped with multiple stages of all-blade series impeller water turbines that accelerate vertically downward and aim to generate the same amount of water 50 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines that are provided in multiple stages and are connected in series to a series of all-blade impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 25 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of series-rotor-bladed impeller water turbines that accelerate vertically downward and aim for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Raise and lower the solar thermal suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Raise the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with left and right with the suspension + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 25 times the same water volume Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Raise and lower the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 12 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Raise and lower the solar thermal suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 50 times the same water volume Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Raise the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with left and right with the suspension + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 25 times the same water volume Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   Raise and lower the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 12 times or more Various energy storage cycle coalescing engines with multistage stages of turbine blade turbines connected in series.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) is moved left and right and up and down with a lifting tool + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   For existing hydropower, lift pump (1H) + solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   For existing hydroelectric power generation, the pump (1H) + solar thermal suspension bridge (2b) is moved up and down with the hanger + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is moved left and right and up and down with a lifting tool + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines aiming at power generation more than double.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is an engine that combines multiple energy conservation cycles with a series of all-stage impeller-driven turbine water turbines that are accelerated in order to generate the same amount of water 200 times or more.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines multiple energy conservation cycles with a series of all-stage impeller-driven turbine water turbines that are accelerated in order to generate the same amount of water 200 times or more.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines multiple energy conservation cycles with a series of all-stage impeller-driven turbine water turbines that are accelerated in order to generate the same amount of water 200 times or more.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines multiple energy conservation cycles with a series of all-stage impeller-driven turbine water turbines that are accelerated in order to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is an engine that combines multiple energy conservation cycles with a series of all-stage impeller-driven turbine water turbines that are accelerated in order to generate the same amount of water 200 times or more.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is a combined engine with various energy storage cycles, which is equipped with multiple stages of series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy storage cycles, which is equipped with multiple stages of series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy storage cycles, which is equipped with multiple stages of series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy storage cycles, which is equipped with multiple stages of series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy storage cycles, which is equipped with multiple stages of series full blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of series full blade impeller water turbines aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines multiple energy conservation cycles with a series of all-blade impeller water turbines in multiple stages that aim to generate 50 times or more the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of series full blade impeller water turbines aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of series full blade impeller water turbines aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of series full blade impeller water turbines aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of series all blade impeller water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of series all blade impeller water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of series all blade impeller water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of series all blade impeller water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of series all blade impeller water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is an engine that combines multiple energy conservation cycles with a series of all-stage blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines multiple energy conservation cycles with a series of all-stage blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines multiple energy conservation cycles with a series of all-stage blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is an engine that combines multiple energy conservation cycles with a series of all-stage blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is an engine that combines multiple energy conservation cycles with a series of all-stage blade impeller water turbines that aim to generate electricity more than 12 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of all-blade impeller series turbines turbines aiming at the same maximum water output.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of all-blade impeller series turbines turbines aiming at the same maximum water output.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of all-blade impeller series turbines turbines aiming at the same maximum water output.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of all-blade impeller series turbines turbines aiming at the same maximum water output.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward This is a combined engine with various energy conservation cycles, which is equipped with multiple stages of all-blade impeller series turbines turbines aiming at the same maximum water output.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum In addition, various energy conservation cycle coalescing engines equipped with a series of all-stage blade spring water turbines in multiple stages aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescing engines with multiple stages of series rotor blades and turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming to generate power more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy conservation cycle coalescing engines equipped with a series of all-stage blade spring water turbines in multiple stages aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescing engines with multiple stages of series rotor blades and turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming to generate power more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum In addition, various energy conservation cycle coalescing engines equipped with a series of all-stage blade spring water turbines in multiple stages aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series rotor blades and turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum In addition, various energy storage cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming to generate power more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate power more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy conservation cycle coalescing engines equipped with a series of all-stage blade spring water turbines in multiple stages aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum Various energy conservation cycle coalescing engines with multiple stages of series rotor blades and turbines that aim to generate more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming to generate power more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescence engine which provided the series all blade impeller water turbine which aimed at the power generation amount more than 200 times the same water amount in multiple stages.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series rotor blade bouncing water turbines aiming at power generation of 100 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum In addition, various energy conservation cycle coalescence engines provided with multiple stages of series all-blade bouncing water turbines aiming at power generation of 50 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum And various energy conservation cycle coalescence engine which provided the series all blade impeller water turbine which aimed at the power generation amount more than 25 times the same water quantity in multiple stages.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming to generate power more than 12 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines with multistage series turbine blade turbine water turbines aiming at power generation more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate electricity more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage cascade turbine blade turbines aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines that aim to generate power more than 200 times the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum In addition, various energy conservation cycle coalescing engines with multiple stages of series turbine blade bouncing water turbines aiming at power generation more than 100 times the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum In addition, various energy conservation cycle coalescing engines equipped with a series of all-stage blade spring water turbines in multiple stages aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescing engines with multiple stages of series rotor blades and turbines that aim to generate more than 25 times the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines equipped with multiple stages of series turbine blade bouncing water turbines aiming to generate power more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of series full-blade bouncing water turbines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescence engines with multiple stages of series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series full-blade bouncing water turbines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of series full-blade bouncing water turbines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescence engines with multiple stages of series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series full-blade bouncing water turbines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series full-blade bouncing water turbines aiming to generate power more than 200 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 100 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series full blade impeller water turbines that accelerate the acceleration vertically downward and aim for the same amount of power generation 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series-rotor blade bouncing water turbines that accelerate the acceleration vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-blade bouncing water turbines aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines accelerating further vertically downward and aiming for power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines with multistage stages of all-blade impeller water turbines that accelerate further downward vertically and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines that accelerate further vertically downward and aim for the same amount of water generation 25 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescence engines with multiple stages of series all-wheel impeller water turbines accelerating further vertically downward and aiming for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 200 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an energy storage cycle coalescing engine with multiple stages of series full-blade impeller water turbines aiming at generating the same amount of water more than 100 times.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of a series of all-blade propulsion water turbines aiming at generating the same amount of water more than 50 times.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an energy storage cycle coalescing engine equipped with multiple stages of all-blade series impeller water turbines aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum This is an energy storage cycle coalescing engine that is equipped with multiple stages of all-blade impeller water turbines in series, aiming to generate more than 12 times the same amount of water.   The existing series of hydroelectric power generation turbines are equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the amount of power generation more than 200 times by accelerating gravitational acceleration in vacuum in the existing hydropower generation Various energy conservation cycle coalescence engine.   The existing series hydropower turbine is equipped with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates gravity acceleration in vacuum vertically and aims at the same amount of water generation more than 100 times. Various energy conservation cycle coalescence engine.   The existing series hydropower turbine is equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water by accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engine.   The existing series hydropower turbine is equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 25 times by accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engine.   The existing series hydropower turbine is equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water more than 12 times by accelerating gravitational acceleration in vacuum Various energy conservation cycle coalescence engine.   Solar power heater (2) for existing hydroelectric power generation + Addition of friction loss reduction means (3) for acceleration of gravitational acceleration in the vertical direction in the vertical direction, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multiple impeller water turbines.   Solar power heater (2) for existing hydroelectric power generation + Addition of friction loss reduction means (3) for acceleration of gravitational acceleration downward in the vertical direction and aiming at the same amount of water generation more than 100 times Various energy storage cycle coalescing engines with multiple impeller water turbines.   Opposite series all blades equipped with a friction loss reduction means (3) aiming at the amount of power generation more than 50 times the same amount of water by accelerating gravitational acceleration in the vertical direction in the solar heater (2) + vacuum in the existing hydropower generation Various energy storage cycle coalescing engines with multiple impeller water turbines.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum, opposed series all rotor blades equipped with friction loss reduction means (3) aiming at power generation amount equal to or more than 25 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum, opposed series all blades equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water Various energy storage cycle coalescing engines with multiple impeller water turbines.   Solar power heater (2) for existing hydroelectric power generation + Addition of friction loss reduction means (3) for acceleration of gravitational acceleration in the vertical direction in the vertical direction, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines with multiple impeller water turbines.   Addition of solar water heater (2) to existing hydroelectric power generation + Accelerating gravity acceleration in the vacuum vertically, and the same water volume 100 times or more. Various energy conservation cycle coalescing engines with multiple water turbines.   Opposite series all blades equipped with a friction loss reduction means (3) aiming at the amount of power generation more than 50 times the same amount of water by accelerating gravitational acceleration in the vertical direction in the solar heater (2) + vacuum in the existing hydropower generation Various energy storage cycle coalescing engines with multiple impeller water turbines.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum, opposed series all rotor blades equipped with friction loss reduction means (3) aiming at power generation amount equal to or more than 25 times the same water volume Various energy storage cycle coalescing engines with multiple impeller water turbines.   Solar power heater (2) for existing hydroelectric power generation + Accelerating gravitational acceleration in vacuum, opposed series all blades equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water Various energy storage cycle coalescing engines with multiple impeller water turbines.   Existing hydroelectric power generation pump (1H) + solar heater (2) + Addition of friction loss reduction means (3) aiming at power generation more than 200 times the same water volume by accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   The existing hydroelectric power generation pump (1H) + solar heater (2) + additional acceleration of gravity acceleration in vacuum, friction loss reduction means (3) aiming at the same amount of water generation more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   The existing hydroelectric power generation pump (1H) + solar heater (2) + additional gravity loss acceleration means in the vacuum vertically, and friction loss reduction means (3) aiming at the same amount of water generation 50 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   Existing hydroelectric power generation pump (1H) + solar heater (2) + additional gravity loss acceleration means in the vertical direction in the vacuum, friction loss reduction means (3) aiming for power generation more than 25 times the same water volume Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   The existing hydroelectric power generation pump (1H) + solar heater (2) + additional gravity loss acceleration means in the vacuum vertically, and friction loss reduction means (3) aiming at the same amount of water generation 12 times or more Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 200 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and friction aiming at the same amount of water generation 200 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive power of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and friction aiming at the same amount of water generation 200 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 200 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, friction aiming at the same amount of power generation 200 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, friction aiming at power generation more than 100 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming for power generation of more than 100 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation of more than 100 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation more than 100 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive power of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, friction aiming at power generation more than 100 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosion force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, friction aiming at power generation more than 50 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and friction aiming at power generation more than 50 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at electric power generation more than 50 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 50 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aimed at power generation more than 25 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and friction aiming at power generation of more than 25 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming for electric power generation more than 25 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation of more than 25 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation of more than 25 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 12 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, friction aiming at the same amount of water generation 12 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, friction aiming at the same water volume 12 times or more Combined with various energy conservation cycles provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reducing means (3) provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3) organ.   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 12 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aimed at the same water volume 12 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Friction loss reduction means aiming at power generation of more than 200 times the same amount of water by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation with pumping pump (1H) + solar heater (2) + vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with (3).   Friction loss reduction means aiming at power generation of more than 100 times the same amount of water by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation by pumping pump (1H) + solar heater (2) + vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with (3).   Friction loss reduction means aiming at power generation more than 50 times the same amount of water by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation with pumping pump (1H) + solar heater (2) + vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines provided with friction loss reducing means (3) provided with multistage stages of opposed series full blade impeller water turbines equipped with (3).   Friction loss reduction means aiming at the amount of power generation more than 25 times the same amount of water by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation with pumping pump (1H) + solar heater (2) + vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with (3).   Friction loss reduction means aiming at power generation of 12 times or more with the same amount of water by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation with a pump (1H) + solar heater (2) + vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with (3).   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum to generate more than 200 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive power of around 374 degrees with solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward to generate more than 100 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive power of around 374 degrees with solar heater (2) + additional acceleration of gravity in vacuum vertically, generating more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, drop by 600m with pumping pump (1H) + vaporization explosive force of around 374 degrees with solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + acceleration of gravity is further accelerated vertically in the vacuum to generate more than 100 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 200m or less with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is more than 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the vaporization explosive force around 374 degrees with the solar heater (2) + the acceleration of gravity in the vacuum is further accelerated vertically downward, the same amount of water more than 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + vaporization explosive force of around 374 degrees by solar heater (2) + gravity acceleration is further accelerated vertically in vacuum, and the same water volume is more than 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, increase by 200m or less with pump (1H) + vaporization explosive force of around 374 degrees with solar heater (2) + additional acceleration of gravity in vacuum in the vertical direction, the same amount of water more than 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 1000m with a pump (1H) + vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive power of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum, vertically generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, generating the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, generating the same amount of water more than 50 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive power of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydropower generation with 800m drop by pumping pump (1H) + more than 300 degrees vaporization explosive power with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum to generate 50 times or more the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 25 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive power of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum, generating the same amount of water more than 50 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive power of 300 degrees or more with the solar heater (2) + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration of 200% or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + 300 degree or more vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosive force of 300 degrees or more with solar heater (2) + acceleration of gravitational acceleration downward in vacuum, same amount of water more than 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + vaporization explosive force of 300 degrees or more by solar heater (2) + gravitational acceleration is further accelerated vertically under vacuum, and the same amount of water is 25 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 300 degree or more vaporization explosive force with a solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, and the same amount of water is 12 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 200 degree or more vaporization explosive power with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 200 degree or more vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive force with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive power with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 200 degree or more vaporization explosive power with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + 200 degrees or more of vaporization explosive force by a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 50 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a vaporization explosive force of 200 degrees or more with a solar heater (2) + the acceleration of gravity in the vacuum is accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + 200 ° C or more vaporization explosive force with a solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosion force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 400m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + more than 200 degrees of vaporization explosive power with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, the same amount of water is more than 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 200 degree or more vaporization explosive force with a solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, the same amount of water is more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + 200 degrees or more of vaporization explosive force with a solar heater (2) + Gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 50 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + vaporization explosion force of 200 degrees or more with solar heater (2) + acceleration of gravitational acceleration in vacuum vertically, and the same amount of water more than 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or more with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 12 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   In existing hydroelectric power generation, the head is increased by 1000m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated downward in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, increase in drop by 1000m with pumping pump (1H) + vaporization explosive force of 200 degrees or less with solar heater (2) + additional acceleration of gravity acceleration in vacuum vertically to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 200 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 100 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, the head is increased by 400m with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 400m is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 25 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with the pump (1H) + the vaporization explosive force of 200 degrees or less with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 200 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 200 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 25 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, increase by 200m or less with pump (1H) + vaporization explosive force of 200 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   In existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydropower generation with a drop of 1000m by pumping pump (1H) + vaporization explosive force of 100 degrees or less with solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating the same amount of water more than 50 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, the head is increased by 1000m with the pump (1H) + the vaporization explosive force of 100 degrees or less with the solar heater (2) + gravity acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, increase in drop by 1000m with pumping pump (1H) + vaporization explosive force of 100 degrees or less with solar heater (2) + additional acceleration of gravity in vacuum vertically, generating 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Vaporization explosive power of 100 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive force of 100 degrees or less by solar heater (2) + additional acceleration of gravity acceleration in vacuum, generating the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + vaporization explosive power of 100 degrees or less with solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 50 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically under vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive power of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, the head is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration in a vacuum is further accelerated vertically downward to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 200 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the drop is increased by 200m or less with the pump (1H) + the vaporization explosive force of 100 degrees or less with the solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is more than 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, the head is increased by 200m or less with a pump (1H) + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 25 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 200m or less is increased by a pumping pump (1H) + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 12 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 800m with the pump (1H) + the solar gas heater (2) has the maximum vaporization and explosive power + the acceleration of gravity is further accelerated downward in the vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 800m with the pump (1H) + the solar gas heater (2) has the maximum vaporization explosive force + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosive power. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 800m with a pump (1H) + Solar gas heater (2) has a maximum vaporization and explosive force. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + the solar gas heater (2) increases the vaporization explosive power to the maximum + the acceleration of gravity is further accelerated vertically in the vacuum to generate the same amount of water more than 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + the solar gas heater (2) increases the vaporization explosion power to the maximum + the acceleration of gravity is further accelerated vertically in the vacuum, and the amount of water generated is more than 100 times the same. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum vaporization and explosion power + a gravitational acceleration in a vacuum is further accelerated vertically downwards to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation is increased by 400m by pumping pump (1H) + maximum vaporization explosive power by solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, and the same amount of water is generated more than 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation is increased by 400m with a pump (1H) + Solar gas heater (2) with maximum vaporization explosive power + Gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosion power + a gravitational acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + Solar gas heater (2) has a maximum vaporization and explosive force + Gravity acceleration in a vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a solar heater (2) with a maximum increase in vaporization and explosive power. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration vertically in the vacuum, generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, increase of drop 200m or less with pumping pump (1H) + maximum increase of vaporization explosive power with solar heater (2) + acceleration of gravity in vacuum further downward acceleration to generate the same amount of water more than 100 times Various energy conservation cycle coalescing engines aiming at providing multiple stages of opposed series full blade impeller water turbine equipped with friction loss reducing means (3).   Increased drop by 200m or less with pumping pump (1H) to existing hydroelectric power generation + Increased vaporization explosion power to maximum with solar heater (2) + Accelerated gravity acceleration in vacuum vertically, generating more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, the drop is increased by 200m or less with a pump (1H) + the vaporization explosive power is maximized with a solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum to generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   The existing hydroelectric power generation has a drop of 200m or less with a pump (1H) + Solar gas heater (2) has a maximum increase in vaporization and explosion power + Accelerates gravitational acceleration vertically in the vacuum to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   An existing series of hydroelectric power generators (2) + opposed series equipped with friction loss reduction means (3) aiming to generate the same amount of water more than 200 times by accelerating gravitational acceleration vertically in vacuum Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   An existing series of hydroelectric power generators (2) + opposed series equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   An existing series of hydroelectric generators (2) + opposed series equipped with friction loss reduction means (3) aiming at the same amount of water generation 50 times or more by accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   An existing series of hydroelectric generators (2) + counter-series equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating gravitational acceleration vertically in a vacuum. Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   An existing series of hydroelectric power generators (2) + opposed series equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same amount of water by accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescence engines provided with multiple stages of opposed series full-blade bouncer water turbines equipped with friction loss reduction means (3) provided with multistage bouncer water turbines.   An existing series of hydroelectric power generators (2) + opposed series equipped with friction loss reduction means (3) aiming to generate the same amount of water more than 200 times by accelerating gravitational acceleration vertically in vacuum Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   An existing series of hydroelectric power generators (2) + opposed series equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   An existing series of hydroelectric generators (2) + opposed series equipped with friction loss reduction means (3) aiming at the same amount of water generation 50 times or more by accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   An existing series of hydroelectric generators (2) + counter-series equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating gravitational acceleration vertically in a vacuum. Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   An existing series of hydroelectric power generators (2) + opposed series equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same amount of water by accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines with multi-stage all-wheel impeller water turbines.   Existing hydroelectric power generation pump (1H) + surface-floating solar heater (2) + additional gravity acceleration in vacuum to accelerate vertically downward, friction loss reducing means (3) Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines.   Existing hydroelectric power generation pump (1H) + surface-floating solar heater (2) + gravity acceleration in vacuum, vertically accelerated, friction loss reduction means (3) Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines.   Existing hydroelectric power generation pump (1H) + surface-floating solar heater (2) + additional acceleration of gravity in a vacuum downward in the vertical direction, friction loss reducing means (3) Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines.   Existing hydroelectric power generation pump (1H) + surface-floor type solar heater (2) + additional gravity acceleration in a vacuum, vertically accelerating the gravitational acceleration in the downward direction, friction loss reduction means (3) Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines.   Existing hydroelectric power generation pump (1H) + surface-floor solar heater (2) + gravity acceleration in vacuum, and vertical acceleration to reduce the friction loss by aiming to generate power more than 12 times the same amount of water (3 Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines.   Existing hydropower generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   In addition to the existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated 200 times or more. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   In addition to the existing hydroelectric power generation pump (1H) + surface-floor type solar heater (2), vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated more than 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pumping pump (1H) + surface floating solar heater (2), vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   For existing hydropower generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 50 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum, and accelerate vertically downward to generate the same amount of water more than 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum, and accelerate vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, and accelerate vertically downward to generate more than 50 times the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 50 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravity acceleration in vacuum vertically, the same amount of water more than 25 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum, and accelerate vertically downward to generate the same amount of water more than 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water more than 25 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 25 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 100 degrees or less + gravity acceleration in vacuum, accelerate vertically downward, same water volume 25 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   For existing hydroelectric power generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravity acceleration in vacuum is further accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum, vertically accelerated, the same water volume 12 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water more than 12 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   For existing hydroelectric power generation, pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is generated 12 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation with pumping pump (1H) + surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same water volume 12 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of around 374 degrees + gravity acceleration in vacuum, aiming for the same maximum water generation by accelerating gravitational acceleration vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive power of 300 degrees or more + additional acceleration of gravity in vacuum, aiming for maximum power generation with the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, aiming at the same maximum water generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Add to existing hydroelectric power generation pump (1H) + surface floating solar heater (2), vaporization explosive force below 200 degrees + gravity acceleration in vacuum, aiming for the same maximum water generation by accelerating gravitational acceleration vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Add to existing hydroelectric power generation pump (1H) + surface-floating solar heater (2), vaporization explosive force of 100 degrees or less + additional acceleration of gravity in vacuum, aiming for the same maximum water generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the friction is aimed at generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + a gravitational acceleration in vacuum is accelerated vertically downward, and the friction is aimed at generating the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + a gravitational acceleration in a vacuum is accelerated vertically downward, and friction aimed at generating the same amount of water more than 50 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation uses a pump (1H) to increase the head by 1200m + surface-heating solar heater (2) + accelerating gravitational acceleration vertically in a vacuum, and aiming for the same amount of water to generate more than 25 times the friction Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 1200m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + a gravitational acceleration in a vacuum is accelerated vertically downward, and the friction is aimed at generating the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, increase the head by 1000m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically accelerating the friction, aiming for the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, increase the head by 1000m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically accelerating the friction, aiming for the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 1000m + a surface-heating solar heater (2) + gravitational acceleration in a vacuum to accelerate vertically downward, and friction that aims for the same amount of water generation 50 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + surface-heating solar heater (2) + gravitational acceleration in a vacuum, accelerated vertically downward, and friction aimed at generating the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, increase the drop by 1000m with a pump (1H) + surface-heating solar heater (2) + additional gravity acceleration in the vacuum and friction aiming at the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration is further accelerated vertically in the vacuum, and friction aimed at generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + a gravitational acceleration in a vacuum is accelerated vertically downward, and friction aimed at generating the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, and the friction is aimed at generating the same amount of water more than 50 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar floating heater such as a surface-floating type (2) + a gravitational acceleration in vacuum is accelerated vertically downward, and the friction is aimed at generating the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + a gravitational acceleration in vacuum is accelerated vertically downward, and the friction is aimed at generating the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the friction is aimed at generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + surface-heating solar heater (2) + gravitational acceleration in a vacuum and accelerate vertically downward to achieve the same water volume more than 100 times the friction Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically accelerating downward friction, aiming for the same amount of water 50 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a solar surface heater such as a surface-floating type (2) + a gravitational acceleration in vacuum is accelerated vertically downward, and the friction is aimed at generating the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Existing hydroelectric power generation with a pump (1H) increased by a drop of 600m + Solar surface heater (2), surface-floating type, etc. + Gravity acceleration in vacuum is accelerated vertically downward, and friction aimed at the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + surface-heating solar heater (2) + accelerating gravitational acceleration vertically in a vacuum, friction aiming for the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically accelerating the friction, aiming for the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a solar surface heater (2) such as a surface-floating type + friction that accelerates the gravitational acceleration vertically downward in the vacuum, aiming for the same amount of power generation 50 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically accelerating the friction, aiming for the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + surface-heating solar heater (2) + gravitational acceleration in a vacuum, vertically accelerating downward friction, aiming for the same amount of water generation 12 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar surface heater (2) + surface-floating type, etc. + Accelerate gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   For existing hydroelectric power generation, increase the drop by 200m or less with pumping pump (1H) + Solar surface heater (2) such as surface-floating type + Accelerate gravity acceleration vertically in the vacuum, aiming for the same amount of water generation more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar surface heater (2) such as a surface-floating type + Accelerate gravity acceleration vertically in the vacuum, aiming for the same amount of water generation 50 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Increase the drop by 200m or less with a pump (1H) to existing hydroelectric power generation + Solar surface heater (2) with surface levitation, etc. + Gravity acceleration is accelerated vertically downward in the vacuum, aiming for the same amount of water generation more than 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   For existing hydroelectric power generation, increase the drop by 200m or less with pumping pump (1H) + Solar surface heater (2) such as surface floating type + Gravity acceleration is further accelerated vertically downward in vacuum, aiming for power generation of 12 times or more of the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a head drop of 1000m + surface-floor solar heater (2) + additional gravity acceleration in the vacuum, and friction loss aiming at the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a head drop of 1000m + surface-floor solar heater (2) + additional gravity acceleration in the vacuum to accelerate downward vertically, and friction loss targeting the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a head drop of 1000m + surface-floor solar heater (2) + additional gravity acceleration in vacuum, and friction loss aiming at power generation more than 50 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + water-floating solar heater (2) + additional gravity acceleration in the vacuum to accelerate vertically downward, friction loss aiming for power generation of more than 25 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a head drop of 1000m + surface-fed solar heater (2) + additional gravity acceleration in the vacuum to accelerate the vertical downwards, friction loss aiming at the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Friction loss aiming at power generation of 200 times or more with the same water volume by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation by pumping pump (1H) + 800m drop + water surfacing solar heater (2) + vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Friction loss aiming at power generation more than 100 times the same amount of water by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation by pumping pump (1H) + 800m head lift (2) + vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Friction loss aiming at power generation more than 50 times the same water volume by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation with pumping pump (1H) increased by 800m + floating surface solar heater (2) + vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Friction loss aiming at power generation more than 25 times the same water volume by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation with pumping pump (1H) + 800m + floating surface solar heater (2) + vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Friction loss aiming at power generation more than 12 times the same amount of water by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation by pumping pump (1H) + 800m + floating surface solar heater (2) + vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a drop of 600m + water-floating solar heater (2) + additional gravity acceleration in the vacuum to accelerate downward vertically, friction loss aiming at the same amount of water generation 200 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) increased by a drop of 600m + surface-fed solar heater (2) + additional gravity acceleration in a vacuum to accelerate the gravity downward and friction loss aiming at the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a drop of 600m + water surface surfacing solar heater (2) + additional gravity acceleration in a vacuum to accelerate downward friction, aiming at the same amount of water more than 50 times the friction loss Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a drop of 600m + water surface floating solar heater (2) + additional gravity acceleration in the vacuum to accelerate vertically downward, friction loss aiming at power generation more than 25 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Friction loss aiming at power generation more than 12 times the same amount of water by accelerating gravitational acceleration vertically downward in the existing hydroelectric power generation by pumping pump (1H) + 600m + floating surface solar heater (2) + vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar floating heater (2) + gravitational acceleration in the vacuum and accelerated vertically downward to achieve the same amount of water as 200 times or more friction loss Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a drop of 400m + water surface floating solar heater (2) + additional gravity acceleration in the vacuum to accelerate vertically downward, friction loss aiming for the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a head drop of 400m + surface-fed solar heater (2) + additional gravity acceleration in the vacuum to accelerate downward vertically, friction loss targeting the same amount of water 50 times or more Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a head drop of 400m + surface-fed solar heater (2) + additional gravity acceleration in the vacuum vertically, and friction loss aiming for the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   The existing hydroelectric power generation is increased by 400m with a pump (1H) + surface-floor type solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the friction loss is aimed at generating power more than 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with reducing means (3).   Existing hydroelectric power generation with a pump (1H) with a drop of 200m or less + Surface floating solar heater (2) + Gravity acceleration in a vacuum is accelerated vertically downward, and friction aimed at the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Existing hydroelectric power generation with a pump (1H) with a drop of 200m or less + Surface-floor solar heater (2) + Additional acceleration in the vertical direction in the vacuum, friction that aims at the same amount of water more than 100 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Existing hydroelectric power generation with a pump (1H) with a drop of 200m or less + Surface-floor solar heater (2) + Additional acceleration in the vertical direction in the vacuum, friction aimed at generating the same amount of water more than 50 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + surface-floor solar heater (2) + additional acceleration in the vertical direction in the vacuum, and friction aimed at generating the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Existing hydroelectric power generation with a pump (1H) with a drop of 200m or less + Surface-floor solar heater (2) + Gravity acceleration in a vacuum is accelerated vertically downward, and the friction is aimed at generating the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 800m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a surface-expanding solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and the vertical acceleration is accelerated downward. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a surface-expanding solar heater (2) with a vaporization explosive force of around 374 degrees + gravity acceleration in a vacuum in the vertical direction, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + a vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a surface-expanding solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in vacuum, and the acceleration of gravity in the vertical downward direction, the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration to reduce the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + vaporization explosive force of around 374 degrees with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a surface-expanding solar heater (2), the vaporization explosive force of around 374 degrees + the acceleration of gravity in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floating solar heater (2) that accelerates the vaporization force around 374 degrees + the acceleration of gravity in a vacuum and accelerates the gravity downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a surface-expanded solar heater (2), a vaporization explosive force of around 374 degrees + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates downward in the vertical direction. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floor solar heater (2) that accelerates the vaporization force around 374 ° C and accelerates the gravitational acceleration vertically in a vacuum to achieve the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2), an evaporation explosive force of around 374 degrees + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water Various energy storage cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + accelerating gravitational acceleration vertically in a vacuum, with the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + accelerating the gravitational acceleration in a vacuum vertically, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + 300 degree or more vaporization explosive force with a surface-floor solar heater (2) + Gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 300 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 300 degree or more vaporization explosive force with a surface-floor type solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + 300 ° C or more vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + surface-expanding solar heater (2), vaporization explosive force of 300 degrees or more + additional acceleration of gravity in vacuum, vertically below 25% Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 300 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface surfacing solar heater (2) with a vaporization explosive force of more than 300 degrees + gravity acceleration in a vacuum, vertically accelerated, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface-exposure solar heater (2) with a vaporization explosive force of 300 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 100 Various energy conservation cycle coalescing engines aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + further accelerate the gravitational acceleration vertically in the vacuum, the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + further accelerate the gravitational acceleration vertically in the vacuum, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation is increased by 400m with pumping pump (1H) + vaporization explosive force of 300 degrees or more with surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation is increased by 400m with a pump (1H) + more than 300 degrees of vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 300 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + 300 degree or more vaporization explosive force with a surface floating solar heater (2) + Gravitational acceleration is further accelerated vertically under vacuum, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) increases the vaporization explosive force of 300 degrees or more + further accelerates the gravitational acceleration in the vacuum, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a surface surfacing solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) increases the vaporization explosive force of 200 degrees or more + further accelerates the gravitational acceleration vertically in the vacuum, with the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward to achieve the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation with a pumping pump (1H) increased by 1000m + water-floating solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum further accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + 200 degree or more vaporization explosive force with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + 200 degree or more vaporization explosive force with surface floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + more than 200 degrees of vaporization explosive force with a surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + more than 200 degrees of vaporization explosive power with a surface-floor solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation is increased by 800m by pumping pump (1H) + vaporization explosive force of 200 degrees or more by surface-floor solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 600m and a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + a vaporization explosive force of 200 degrees or more with a surface floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + accelerating gravitational acceleration vertically in a vacuum, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or more + accelerating the gravitational acceleration in a vacuum vertically, Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by a drop of 600m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with an evaporation explosive force of 200 degrees or more + Gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 400m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes explosive force of 200 degrees or more + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + a gravitational acceleration in a vacuum that is accelerated vertically downward to achieve the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that evaporates more than 200 degrees + a gravitational acceleration in a vacuum and accelerates vertically downward to achieve the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy storage cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 200m or less + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or more + additional acceleration of gravity in a vacuum, vertically below the same amount of water Various energy storage cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation is increased by 1000m with a pumping pump (1H) + 200 degree or less vaporization explosive force with a surface-floating solar heater (2) + Gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less + a gravitational acceleration in a vacuum that is accelerated vertically downward to the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a surface floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m and a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a surface-floating solar heater (2) with a vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + vaporization explosive force of 200 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + vaporization explosive force of 200 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 600m with a pump (1H) + a vaporization explosive force of 200 degrees or less with a surface floating solar heater (2) + a gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floor solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum, vertically accelerated, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + additional acceleration of gravity in a vacuum in the vertical direction, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m and a surface-floating solar heater (2) that vaporizes less than 200 ° C + accelerates the gravitational acceleration vertically in a vacuum. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes less than 200 degrees + gravity acceleration in a vacuum and further accelerates the gravitational acceleration vertically downward to achieve the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 200 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 100 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming at power generation more than 50 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 25 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 200m or less + the surface-floating solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 1000m with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floor solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water is 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 800m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum and a vertical acceleration of 25%. Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + Vaporization explosive force of 100 degrees or less with surface floating solar heater (2) + Gravitational acceleration in vacuum is further accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) to increase the drop by 600m + the surface-floating solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum, and a vertical acceleration that accelerates vertically down to the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + a surface-floating solar heater (2) with a vaporization explosive force of 100 degrees or less + a gravitational acceleration in a vacuum that is accelerated vertically downward, and the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a surface-floating solar heater (2) that vaporizes and explodes below 100 degrees + accelerates the gravitational acceleration vertically in a vacuum, with the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 200 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 100 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming at power generation more than 50 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 25 times.   The existing hydroelectric power generation has a drop of 200m or less with a pumping pump (1H) + a vaporization explosive force of 100 degrees or less with a surface-floating solar heater (2) + gravity acceleration in a vacuum is accelerated vertically downward, and the same amount of water Various energy storage cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at power generation more than 12 times.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + further accelerates the gravitational acceleration in a vacuum, vertically accelerating by 200 times the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased with a pumping pump (1H) + a vaporization explosive force is increased to a maximum with a surface-floating solar heater (2) + gravity acceleration is accelerated vertically downward in a vacuum, and the same amount of water is increased by 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a vaporization explosive force is increased to a maximum by a surface-floating solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is multiplied by 50 Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased by a pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 1000m is increased with a pumping pump (1H) + a vaporization explosive force is increased to a maximum with a surface-floating solar heater (2) + gravity acceleration is accelerated vertically downward in a vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H), the vaporization explosive power is maximized with a surface-floor solar heater (2), and the acceleration of gravity is further accelerated vertically in the vacuum to increase the same amount of water by 200 times. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + maximum increase of vaporization explosive power by surface floating solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration, 100 times the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + maximum increase of vaporization explosive power by surface floating solar heater (2) + acceleration of gravitational acceleration in vacuum, vertical acceleration, 50 times the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H), the vaporization explosive power is increased with the surface-floating solar heater (2), and the acceleration of gravity is further accelerated in the vertical direction in a vacuum to increase the same amount of water by 25 times. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + the surface-exposure solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a vaporization explosive force is increased to a maximum by a surface-floating solar heater (2) + gravity acceleration is further accelerated vertically in a vacuum, and the same amount of water is 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is increased by 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in a vacuum, and the same amount of water is 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased by the pump (1H) + the surface-expanded solar heater (2) is increased to the maximum vaporization explosive force + Gravity acceleration is further accelerated vertically downward in the vacuum, and the same amount of water is 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + the surface-floating solar heater (2) is increased to the maximum vaporization explosive force + gravitational acceleration is further accelerated in the vertical direction in vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + Accelerates gravitational acceleration vertically in the vacuum, and the same amount of water 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase vaporization power to maximum with surface floating solar heater (2) + Accelerate gravitational acceleration vertically in vacuum, 100 times the same water volume Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase to maximum vaporization explosive power with surface floating solar heater (2) + Accelerate gravitational acceleration in vacuum vertically and increase water volume by 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   The existing hydroelectric power generation uses a pumping pump (1H) with a drop of 400m + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + Accelerates gravitational acceleration vertically in the vacuum and increases the same amount of water by 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a vaporization explosive power is increased to a maximum by a surface floating solar heater (2) + gravitational acceleration is further accelerated vertically in a vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum and vertically accelerates the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum, vertically accelerating the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation uses a pump (1H) with a drop of 200m or less + the surface-floating solar heater (2) increases the vaporization explosive force to the maximum + accelerates the gravitational acceleration in a vacuum, vertically accelerating the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   The existing hydroelectric power generation is equipped with a solar thermal augmentation suspension bridge (2b), a solar heater (2), and a friction loss reduction means (3) that accelerates the gravitational acceleration downward in the vertical direction, aiming at the same amount of power generation 200 times or more. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   The existing hydroelectric power generation is equipped with a solar thermal augmentation suspension bridge (2b), a solar heater (2), and a friction loss reduction means (3) for accelerating gravitational acceleration vertically downward in the vacuum and aiming for the same amount of water generation more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Friction loss reduction means (3) aiming at power generation more than 50 times the same water quantity by accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Addition of friction loss reduction means (3) aiming at power generation more than 25 times the same amount of water by accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   The existing hydroelectric power generation is equipped with a solar heat augmentation suspension bridge (2b), a solar heater (2), and friction loss reduction means (3) that accelerates the gravitational acceleration downward in the vertical direction, aiming for the same amount of water generation 12 times or more. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   The existing hydroelectric power generation is equipped with a solar thermal augmentation suspension bridge (2b), a solar heater (2), and a friction loss reduction means (3) that accelerates the gravitational acceleration downward in the vertical direction, aiming at the same amount of power generation 200 times or more. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   The existing hydroelectric power generation is equipped with a solar thermal augmentation suspension bridge (2b), a solar heater (2), and a friction loss reduction means (3) for accelerating gravitational acceleration vertically downward in the vacuum and aiming for the same amount of water generation more than 100 times Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Friction loss reduction means (3) aiming at power generation more than 50 times the same water quantity by accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   Existing hydroelectric power generation suspension bridge (2b) Solar heater (2) + Addition of friction loss reduction means (3) aiming at power generation more than 25 times the same amount of water by accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   The existing hydroelectric power generation is equipped with a solar heat augmentation suspension bridge (2b), a solar heater (2), and friction loss reduction means (3) that accelerates the gravitational acceleration downward in the vertical direction, aiming for the same amount of water generation 12 times or more. Various energy storage cycle coalescing engines equipped with multi-stage opposed series full blade impeller water turbine.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + acceleration of gravity acceleration in vacuum, lowering friction loss aiming at power generation more than 200 times the same water volume Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + acceleration of gravity in vacuum is further accelerated vertically downward, reducing friction loss aiming at power generation more than 100 times the same water volume Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + Accelerating gravity acceleration in vacuum vertically, reducing friction loss aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, reducing friction loss aiming at power generation more than 25 times the same water volume Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) + acceleration of gravity in vacuum is further accelerated vertically downward, reducing friction loss aiming at power generation more than 12 times the same water volume Various energy storage cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with means (3).   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same water volume 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 300 degrees or more + Gravitational acceleration is accelerated vertically downward in vacuum, the same amount of water 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) evaporating explosive force of 200 degrees or more + accelerating gravitational acceleration vertically in vacuum, same water volume 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same water volume is 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Add to existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2), vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum, vertically accelerated, 100 times the same water volume Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, and the same amount of water is 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum is accelerated vertically downward, the same water volume 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Add to existing hydropower pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) evaporating explosive force of 200 degrees or more + Accelerating gravitational acceleration vertically in vacuum, same water volume 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward, the same amount of water 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of around 374 degrees + gravity acceleration in vacuum further accelerated vertically downward, same water volume 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive power of 300 degrees or more + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal expansion suspension bridge (2b) Solar heater (2) vaporization explosive force of 200 degrees or more + Gravity acceleration is accelerated vertically downward in vacuum, the same amount of water 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force below 200 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   Existing hydroelectric power generation pump (1H) + solar thermal suspension bridge (2b) Solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, the same amount of water 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same maximum water volume Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 300 degrees or more + gravity acceleration in vacuum is further accelerated vertically downward, and the same water maximum power generation Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and the same water maximum power generation Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydropower generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum is accelerated vertically downward, and the same water maximum power generation Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal suspension bridge (2b) solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in vacuum is further accelerated vertically downward to generate the same maximum amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, increase the head by pumping pump (1H) + solar heating (2b) such as suspension bridge (2b) + solar heater (2) + add gravity acceleration in vacuum vertically Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, increase the head by pumping pump (1H) + solar heating (2b), such as suspension bridge (2b) + solar acceleration (2) + gravity acceleration in vacuum is accelerated vertically downward to increase the amount of generated water by 100 times or more Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, increase the head with a pump (1H) + solar heating (2b) such as a solar thermal expansion suspension bridge (2b) + add gravity acceleration in the vacuum vertically in the vacuum, and generate the same amount of water more than 50 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, increase the head with a pump (1H) + Solar heating (2b) such as a solar heat increase suspension bridge (2b) + Accelerate gravity acceleration in the vacuum vertically, and generate more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, increase the head with a pump (1H) + Solar heating (2b) such as a suspension bridge (2b) + Addition of acceleration of gravity in vacuum + Accelerate the gravitational acceleration vertically, and generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + solar heat increase suspension solar bridge (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation by pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) etc. Solar power heater (2) + Gravity acceleration is further accelerated vertically downward in vacuum, same amount of water more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation by pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate 50% or more of the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 1000m with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + solar heating increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of water generated is more than 12 times the same. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravity acceleration is further accelerated downward in the vacuum, and the same amount of water is generated more than 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation with a pump (1H) increased by 800m + solar heat increase suspension solar bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Add to existing hydroelectric power generation by 800m drop with pump (1H) + Solar heat increase suspension bridge (2b), etc. Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, the same amount of water more than 50 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation with 800m drop by pumping pump (1H) + solar heating (2b) such as suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 25 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar heating (2b) such as a solar thermal expansion suspension bridge (2b) + gravity acceleration in the vacuum is further accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   For existing hydroelectric power generation, the pump is increased by 600m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   For existing hydroelectric power generation, increase in head by 600m with pump (1H) + solar heating (2b) such as suspension bridge (2b) + additional solar acceleration (2) + vacuum acceleration in the vertical direction, the same amount of water more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   For existing hydroelectric power generation, a 600m drop with a pump (1H) + solar heating (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum, vertically generating the same amount of water 50 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation with a pump (1H) with a drop of 600m + solar heating increase suspension bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 25 times the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   For existing hydroelectric power generation, a 600m drop with a pump (1H) + Solar heating (2b) such as a suspension bridge (2b) + Additional acceleration of gravity in the vacuum vertically in the vacuum to increase the amount of water more than 12 times the same amount of water Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation with a pump (1H) increased by 400m + solar heating increased suspension solar bridge (2b) and other solar heaters (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of generated water is more than 200 times the same. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated 50 times or more. Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   Existing hydroelectric power generation with pumping pump (1H) increased by 400m + solar heat increase suspension bridge (2b) and other solar heaters (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 25 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   For existing hydroelectric power generation, increase by 200m or less with a pump (1H) + solar heating (2b) such as a solar thermal increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + additional acceleration of gravity acceleration in vacuum, generating more than 100 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   In existing hydroelectric power generation, increase by 200m or less with a pump (1H) + solar heating (2b) such as a solar heat increase suspension bridge (2b) + gravitational acceleration is further accelerated vertically in the vacuum to generate more than 50 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + additional acceleration of gravity acceleration in vacuum, generating more than 25 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   For existing hydroelectric power generation, increase by 200m or less with pumping pump (1H) + solar heating (2b) such as solar thermal increase suspension bridge (2b) + acceleration of gravitational acceleration downward in vacuum to generate more than 12 times the same amount of water Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming for quantity.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Existing hydroelectric power generation with pumping pump (1H) increased by 1000m + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 100 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Existing hydroelectric power generation with a pumping pump (1H) increased by a drop of 1000m + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity in the vacuum downward in the vertical direction. Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Existing hydroelectric power generation with pumping pump (1H) 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Existing hydroelectric power generation with pumping pump (1H) + 1000m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to increase the amount of water generation by 12 times or more. Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Add 800m drop to the existing hydroelectric power generation pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 200 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Add 800m drop with existing pump for pumping water (1H) + Suspension bridge (2b) Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum to increase the amount of generated water by 100 times or more Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m increase + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum downwards, the same amount of water more than 50 times the amount of power generation Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   In existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   In existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is accelerated vertically downward, and the same amount of water is generated more than 12 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the amount of generated water is more than 200 times the same. Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Add 600m drop to existing hydroelectric power generation with pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration in vacuum is accelerated vertically downward to increase power generation by 100 times or more. Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated downward in the vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravity acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Existing hydroelectric power generation with a pumping pump (1H) + 600m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Existing hydroelectric power generation with a pump (1H) with a head drop of 400m + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum, vertically generating the same amount of water more than 200 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   In existing hydroelectric power generation with a pumping pump (1H) 400m head drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in vacuum is further accelerated vertically downward, the same amount of water more than 100 times the amount of power generation Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + Solar heat increase suspension bridge (2b) Solar heater (2) + Gravity acceleration is accelerated vertically downward in the vacuum, and the same amount of water is generated 50 times or more. Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   Existing hydroelectric power generation with a pumping pump (1H) 400m drop + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration in the vacuum is further accelerated vertically downward to generate the same amount of water more than 25 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum to generate the same amount of water more than 12 times Various energy conservation cycle coalescing engines provided with opposed series full blade impeller water turbines equipped with target friction loss reduction means (3) in multiple stages.   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 200 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum downward, the same amount of water more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, the same amount of water more than 50 times the amount of power generation Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 200m or less with a pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is generated more than 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   The existing hydroelectric power generation is increased by 200m or less with a pumping pump (1H) + solar thermal increase suspension bridge (2b) solar heater (2) + additional acceleration of gravity acceleration in the vacuum vertically, the same amount of water more than 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, pumping pump (1H) increases drop 1000m + solar heat increase suspension bridge (2b) Solar heater (2) accelerates vaporization explosive force around 374 degrees + gravity acceleration in vacuum further vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate vaporization acceleration around 374 degrees + gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 400m with a pump (1H) + an increase in solar heat + a suspension bridge (2b), a solar heater (2), a vaporization explosive force of around 374 degrees + acceleration of gravity acceleration in a vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, an increase of 400m with a pump (1H) + an increase in solar heat + a suspension bridge (2b), a solar heater (2), a vaporization explosive force of around 374 degrees + acceleration of gravity acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), vaporization explosive force around 374 degrees + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), the vaporization explosive force around 374 degrees + the acceleration of gravity in the vacuum is accelerated further vertically downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, pumping pump (1H) increases drop by 1000m + solar heat increase suspension bridge (2b) Solar heating (2) evaporates explosive force of 300 degrees or more + accelerates gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, an increase of 800m in the head with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 300 degrees or more + gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 200m or less is increased by a pump (1H) + a solar heat increase suspension bridge (2b) A vaporization explosive force of 300 degrees or more by a solar heater (2) + gravitational acceleration is accelerated vertically downward in a vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   Existing hydroelectric power generation with a pump of pump (1H) + 1000m increase + solar heat increase suspension bridge (2b) Solar heating (2) vaporization explosive force of 200 degrees or more + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + an increase in solar heat suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or more + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, a drop of 600m is increased by a pump (1H) + a solar heat increase suspension bridge (2b) by a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization explosive force of 200 degrees or more with the solar heater (2) Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, an increase of 800m with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2), a vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2). Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, the pump is increased by 400m with the pump (1H) + the solar heat increase suspension bridge (2b) with the solar heater (2), vaporization explosive force of 200 degrees or less + acceleration of gravitational acceleration in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) by the solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 1000m + a solar heat increase suspension bridge (2b) with a solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) vaporization explosive force of 100 degrees or less by solar heater (2) + acceleration of gravitational acceleration downward in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) a vaporization explosive force of 100 degrees or less by a solar heater (2) + acceleration of gravitational acceleration in a vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, a 400m drop with a pump (1H) + a solar heat increase suspension bridge (2b) with a solar heater (2) to accelerate the vaporization explosive force of 100 degrees or less + gravitational acceleration in a vacuum vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + increase the solar heat Suspension bridge (2b) with the solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in the vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 100 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum Various energy conservation cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 200 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 100 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the amount of water.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + increase of solar heat suspension bridge (2b) increase of vaporization explosive power to maximum by solar heater (2) + acceleration of gravity in vacuum is accelerated vertically and the same Various energy conservation cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) A solar heater (2) is used to increase the vaporization explosive force to the maximum + a gravitational acceleration is further accelerated vertically in the vacuum, and the same Various energy conservation cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 200 times or more.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 100 times or more.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the amount of water.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more.   For existing hydroelectric power generation, increase by 400m with a pump (1H) + increase in solar heat Suspension bridge (2b) Increase in vaporization power to the maximum with a solar heater (2) + Gravity acceleration in vacuum is accelerated vertically Various energy conservation cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation, the head is increased by 200m or less with the pump (1H) + the solar heat increase suspension bridge (2b) The vaporization power is increased to the maximum with the solar heater (2) Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   Friction that aims at the amount of power generation more than 200 times the same water amount by accelerating gravitational acceleration vertically downward in the vacuum + solar heater (2) + in the vacuum near the solar thermal augmentation suspension bridge (2b) to existing hydroelectric power generation Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Friction that aims at power generation more than 100 times the same amount of water by accelerating gravitational acceleration vertically downward in the vacuum + solar heater (2) + in the vacuum near the solar thermal augmentation suspension bridge (2b) to existing hydroelectric power generation Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Friction that aims at power generation more than 50 times the same amount of water by accelerating gravitational acceleration vertically downward in the solar power (2) + vacuum in the vertical direction of solar thermal augmentation suspension bridge (2b) close to the existing hydropower Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Bring the solar thermal suspension bridge (2b) close to right angle with sunlight to existing hydroelectric power generation + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum, friction aiming at power generation more than 25 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Friction that aims at the amount of power generation more than 12 times the same water amount by accelerating gravitational acceleration vertically downward in the vacuum + solar heating device (2) + the solar thermal augmentation suspension bridge (2b) close to the existing hydroelectric power generation at right angles to sunlight Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Friction that aims at the amount of power generation more than 200 times the same water amount by accelerating gravitational acceleration vertically downward in the vacuum + solar heater (2) + in the vacuum near the solar thermal augmentation suspension bridge (2b) to existing hydroelectric power generation Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Friction that aims at power generation more than 100 times the same amount of water by accelerating gravitational acceleration vertically downward in the vacuum + solar heater (2) + in the vacuum near the solar thermal augmentation suspension bridge (2b) to existing hydroelectric power generation Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Friction that aims at power generation more than 50 times the same amount of water by accelerating gravitational acceleration vertically downward in the solar power (2) + vacuum in the vertical direction of solar thermal augmentation suspension bridge (2b) close to the existing hydropower Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Bring the solar thermal suspension bridge (2b) close to right angle with sunlight to existing hydroelectric power generation + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum, friction aiming at power generation more than 25 times the same water volume Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   Friction that aims at the amount of power generation more than 12 times the same water amount by accelerating gravitational acceleration vertically downward in the vacuum + solar heating device (2) + the solar thermal augmentation suspension bridge (2b) close to the existing hydroelectric power generation at right angles to sunlight Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with loss reduction means (3).   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought perpendicular to sunlight + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, same water volume 200 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) + gravitational acceleration is accelerated vertically downward in vacuum, the same amount of water is 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is moved perpendicular to sunlight + solar heater (2) + gravitational acceleration is accelerated vertically downward in the vacuum, the same amount of water 50 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water is 25 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is moved perpendicular to sunlight + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, and the same amount of water is 12 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full-blade propulsion water turbines equipped with friction loss reduction means (3) that accelerate and aim for the same amount of water generation 100 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 50 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 50 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 50 times the same amount of water.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 50 times the same amount of water.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 50 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines that are equipped with friction loss reduction means (3) that accelerate and aim for power generation of 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines that are equipped with friction loss reduction means (3) that accelerate and aim for power generation of 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines that are equipped with friction loss reduction means (3) that accelerate and aim for power generation of 25 times or more.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy storage cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines that are equipped with friction loss reduction means (3) that accelerate and aim for power generation of 25 times or more.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy storage cycle coalescing engines provided with multistage stages of opposed series full-blade propulsion water turbines that are equipped with friction loss reduction means (3) that accelerate and aim for power generation of 25 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 12 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 12 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 12 times the same amount of water.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 12 times the same amount of water.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 12 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force around 374 degrees with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) for accelerating and aiming at the same maximum water generation.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) for accelerating and aiming at the same maximum water generation.   For existing hydroelectric power generation, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) for accelerating and aiming at the same maximum water generation.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal augmentation suspension bridge (2b) is brought close to the right angle with sunlight + vaporization force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum added vertically downward Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) for accelerating and aiming at the same maximum water generation.   For existing hydropower, bring the pump (1H) + solar thermal suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) for accelerating and aiming at the same maximum water generation.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   For existing hydropower, increase the head with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate the gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 1000m with the pump (1H) + solar heat increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the lift pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with a pump (1H) + increase the solar thermal suspension bridge (2b) close to the right angle with sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension (2b) close to the right angle to sunlight, etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum In addition, various energy storage cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the power generation amount equal to or more than 25 times the same water amount.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight, etc. + solar heater (2) + acceleration of gravity is further accelerated downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) close to perpendicular to sunlight + Solar heater (2) + Accelerate gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   Existing hydroelectric power generation with a pump (1H) with a drop of 800m + Solar heat increase Suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerating gravitational acceleration vertically in vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   For existing hydroelectric power generation with a pump (1H), increase the drop by 600m + make the solar heat increase suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy storage cycle coalescing engines equipped with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase solar thermal suspension bridge (2b) close to the right angle with sunlight + solar heater (2) + accelerate gravity acceleration in the vacuum vertically downward, Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 12 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension bridge (2b) close to the right angle with sunlight + Solar heater (2) + Accelerate gravitational acceleration vertically in the vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of around 374 degrees by a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought close to sunlight at right angle + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 400m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization explosive force around 374 degrees with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to sunlight at right angles + a vaporization explosive force around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines that aim to generate more than 25 times the same water volume by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + solar thermal increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation is increased by 800m with a pumping pump (1H) + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + the vaporization explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) at a right angle to sunlight + evaporative power of 200 degrees or more with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought close to the right angle with sunlight + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 400m is increased with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m drop by pumping pump (1H) + solar heat increase suspension bridge (2b) is brought perpendicular to sunlight + vaporization explosive force of 100 degrees or less by solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 600m + the solar heat increase suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat suspension bridge (2b) close to the right angle with sunlight + vaporization explosive force of 100 degrees or less with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is brought perpendicular to the sunlight + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims at the same amount of water generation 200 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) that accelerates vertically downward and aims for the same amount of water generation 100 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims to generate the same amount of water 50 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) that accelerates vertically downward and aims to generate the same amount of water 25 times or more.   The existing hydroelectric power generation has a drop of 1000m with a pump (1H) + a solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to the maximum with a solar heater (2) + gravity acceleration is added in a vacuum Various energy conservation cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims at the same amount of water generation 200 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) that accelerates vertically downward and aims for the same amount of water generation 100 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims to generate the same amount of water 50 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) that accelerates vertically downward and aims to generate the same amount of water 25 times or more.   The existing hydroelectric power generation is increased by 800m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims for the same amount of water generation 12 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims at the same amount of water generation 200 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) that accelerates vertically downward and aims for the same amount of water generation 100 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims to generate the same amount of water 50 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) that accelerates vertically downward and aims to generate the same amount of water 25 times or more.   The existing hydroelectric power generation is increased by 600m with a pump (1H) + the solar thermal increase suspension bridge (2b) is brought perpendicular to the sunlight + the vaporization power is increased to maximum with the solar heater (2) + gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims for the same amount of water generation 12 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims at the same amount of water generation 200 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) that accelerates vertically downward and aims for the same amount of water generation 100 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims to generate the same amount of water 50 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) that accelerates vertically downward and aims to generate the same amount of water 25 times or more.   Add 400m drop to existing hydroelectric power generation with pump (1H) + Increase solar thermal suspension suspension bridge (2b) perpendicular to sunlight + Increase vaporization power to maximum with solar heater (2) + Add gravity acceleration in vacuum Various energy conservation cycle coalescing engines equipped with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates vertically downward and aims for the same amount of water generation 12 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar thermal suspension suspension bridge (2b) at a right angle to sunlight + Increase the vaporization power to the maximum with a solar heater (2) + Gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Raise and lower the solar thermal suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 50 times the same water volume Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Raise the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with left and right with the suspension + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 25 times the same water volume Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Raise and lower the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 12 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, aiming for the same amount of water generation 200 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   The solar thermal augmentation suspension bridge (2b) is lifted to the left and right with the existing hydropower generator + solar heater (2) + gravitational acceleration is further accelerated vertically in the vacuum, aiming to generate the same amount of water more than 100 times Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Raise and lower the solar thermal suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 50 times the same water volume Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Raise the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with left and right with the suspension + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming at the power generation more than 25 times the same water volume Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   Raise and lower the solar thermal augmentation suspension bridge (2b) to the existing hydroelectric power generation with the lifting tool + solar heater (2) + Accelerate the gravitational acceleration vertically in the vacuum, aiming for the same amount of water generation 12 times or more Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3).   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 200 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   For existing hydroelectric power generation, pumping pump (1H) + solar thermal expansion suspension bridge (2b) is moved left and right and up and down with a lifting tool + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 100 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   For existing hydropower, lift pump (1H) + solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 50 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   For existing hydroelectric power generation, the pump (1H) + solar thermal suspension bridge (2b) is moved up and down with the hanger + solar heater (2) + gravitational acceleration is further accelerated vertically downward in the vacuum, the same amount of water 25 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) is moved left and right and up and down with a lifting tool + solar heater (2) + gravitational acceleration is further accelerated vertically downward in vacuum, the same amount of water 12 Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation more than double.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of power generation 200 times or more.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of power generation 200 times or more.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of power generation 200 times or more.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of power generation 200 times or more.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of power generation 200 times or more.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 100 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 100 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 100 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 100 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate electric power more than 100 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy storage cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more with the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more with the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more with the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more with the same amount of water.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more with the same amount of water.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tools + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration added in vacuum vertically below Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same maximum amount of power generation.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 300 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same maximum amount of power generation.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with suspension tools + vaporization explosive force of 200 degrees or more with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same maximum amount of power generation.   For existing hydropower, lift pump (1H) + solar thermal augmentation suspension bridge (2b) left and right and up and down with hanging tool + vaporization explosive force of 200 degrees or less with solar heater (2) + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same maximum amount of power generation.   For existing hydroelectric power generation, lift pump (1H) + solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration added in vacuum vertically downward Various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same maximum amount of power generation.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head with the pump (1H) + increase the solar heat suspension bridge (2b) to the left, right, up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the power generation amount equal to or more than 25 times the same water amount.   For existing hydroelectric power generation with a pumping pump (1H) + 1000m drop + solar heat increase Suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the power generation amount equal to or more than 25 times the same water amount.   For existing hydroelectric power generation, increase the drop by 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) to the left, right and up with the suspension + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum In addition, various energy storage cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the power generation amount equal to or more than 25 times the same water amount.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a suspension, etc. + solar heater (2) + gravitational acceleration is further accelerated vertically downward in a vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the power generation amount equal to or more than 25 times the same water amount.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat Suspension bridge (2b) with the lifting tool, etc. + solar heater (2) + accelerate the gravitational acceleration vertically downward in the vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Then, various energy storage cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Then, various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Then, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Then, various energy storage cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same water amount 25 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + increase the solar heat suspension bridge (2b) left and right and up and down etc. + solar heater (2) + accelerating gravitational acceleration vertically in the vacuum Then, various energy storage cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation with a pumping pump (1H) 1000m drop + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop 800m with the pump (1H) + increase the solar heat Suspension bridge (2b) left and right and up and down with the lifting tool + solar heater (2) + accelerating gravitational acceleration in the vacuum vertically Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the drop by 600m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + solar heater (2) + accelerating gravitational acceleration in vacuum vertically Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle combined engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reducing means (3) aiming at power generation of 200 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 25 times or more of the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with a pump (1H) + increase the solar heat Suspension bridge (2b) up and down and up and down + solar heater (2) + additional acceleration of gravity acceleration in vacuum Various energy storage cycle coalescence engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 200 times or more.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 100 times or more.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of the same amount of water 50 times or more.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the power generation amount equal to or more than 25 times the same water amount.   In existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with a suspension + Solar heater (2) + Accelerate gravitational acceleration vertically downward in vacuum In addition, various energy storage cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at power generation of 12 times or more of the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of around 374 degrees with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force around 374 degrees + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates acceleration vertically downward and aims at the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of water generation 50 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same water amount by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with the pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with the lifting tool + Evaporative explosive force around 374 degrees with the solar heater (2) + Gravity in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right and up and down + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosion force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 400m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 300 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates acceleration vertically downward and aims at the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of water generation 50 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same water amount by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 300 degrees or more with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or more + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 200 degrees or more with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 200 degrees or more by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up and down + evaporative explosive force of 200 degrees or more with the solar heater (2) + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates acceleration vertically downward and aims at the same amount of water generation 100 times or more.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of water generation 50 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same water amount by accelerating acceleration vertically downward.   For existing hydroelectric power generation, drop of 200m or less with pumping pump (1H) + Solar heat increase Suspension bridge (2b) left and right and up and down with suspension tool + Solar gas heater (2) vaporization explosive force of 200 degrees or more + gravity in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the drop by 1000m + the solar heat increase suspension bridge (2b) to the left and right and up and down with the lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosion force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pumping pump (1H) to increase the head by 400m + the solar heat increase suspension bridge (2b) to the left and right and up and down with a lifting tool + solar heater (2) vaporization explosive force of 200 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates acceleration vertically downward and aims at the same amount of water generation 100 times or more.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of water generation 50 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same water amount by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 200m or less is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted left and right with a lifting tool + a vaporization explosive force of 200 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 800m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved up and down with a lifting tool + a vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, a drop of 600m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization explosive force of 100 degrees or less by a solar heater (2) + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   The existing hydroelectric power generation uses a pump (1H) with a drop of 400m + a solar heat increase suspension bridge (2b) left and right and up and down with a lifting tool + a solar heater (2) vaporization explosive force of 100 degrees or less + gravity acceleration in a vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) that accelerates acceleration vertically downward and aims at the same amount of water generation 100 times or more.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming at the same amount of water generation 50 times or more by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same water amount by accelerating acceleration vertically downward.   For existing hydroelectric power generation, increase the drop by 200m or less with a pump (1H) + Increase the solar heat suspension bridge (2b) left and right and up and down with a lifting tool + vaporization explosive force of 100 degrees or less with a solar heater (2) + gravity in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same amount of water by accelerating acceleration vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 1000m is increased by a pumping pump (1H) + a solar heat increase suspension bridge (2b) is moved left and right and up and down by a lifting tool + a vaporization power is increased to maximum by a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase of 800m in head by pumping pump (1H) + increase in solar heat Suspension bridge (2b) left and right and up with suspension + maximum increase in vaporization power with solar heater (2) + gravity acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, a drop of 600m is increased with a pump (1H) + a solar heat increase suspension bridge (2b) is lifted to the left and right with a lifting tool + a vaporization force is increased to a maximum with a solar heater (2) + gravity acceleration in a vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescence engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming for the same amount of water generation 200 times or more by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 100 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate more than 25 times the same amount of water by accelerating further vertically downward.   For existing hydroelectric power generation, increase the head by 400m with the pump (1H) + increase the solar heat by lifting the suspension bridge (2b) left and right and up + increase the vaporization power to the maximum by the solar heater (2) + increase the gravitational acceleration in vacuum Various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same water amount by accelerating further vertically downward.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 200 times or more.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 100 times or more by accelerating the additional vertical downward.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multistage stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multiple stages of opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water.   For existing hydroelectric power generation, drop of 200m or less is increased by pumping pump (1H) + Solar heat increase Suspension bridge (2b) is left and right and up and down with suspension tool + Solar gas heater (2) increases vaporization explosive force to the maximum + Gravity acceleration in vacuum The various energy conservation cycle coalescing engines provided with multi-stage opposed series full blade impeller water turbines equipped with friction loss reduction means (3) aiming to generate the same amount of water 12 times or more.   A variety of multi-stage series turbine blade turbines equipped with friction loss reduction means (3) aiming to generate power more than 200 times the same amount of water by accelerating gravitational acceleration in vacuum to existing hydroelectric power generation Energy conservation cycle coalescence engine.   Various hydropower turbines equipped with a series of all-blade propulsion turbine water turbines equipped with friction loss reduction means (3) aiming to generate power more than 100 times the same amount of water by accelerating gravitational acceleration in vacuum to existing hydroelectric power generation Energy conservation cycle coalescence engine.   A variety of multi-stage series turbine blade turbines equipped with friction loss reduction means (3) aiming to generate power more than 50 times the same amount of water by accelerating gravitational acceleration in vacuum to existing hydroelectric power generation Energy conservation cycle coalescence engine.   A variety of multi-stage series turbine blade turbines equipped with friction loss reduction means (3) aiming to generate electricity more than 25 times the same amount of water by accelerating gravitational acceleration in vacuum to existing hydroelectric power generation Energy conservation cycle coalescence engine.   A variety of multi-stage series turbine blade turbines equipped with friction loss reduction means (3) aiming to generate power more than 12 times the same amount of water by accelerating gravitational acceleration in vacuum in addition to existing hydroelectric power generation Energy conservation cycle coalescence engine.   In addition to the existing hydroelectric power plant, a solar heater (2) + a series of all blade impellers equipped with friction loss reduction means (3) that accelerates the gravitational acceleration vertically downward in the vacuum and aims to generate the same amount of water 200 times or more. Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power plant, a solar heater (2) + in-vacuum acceleration of gravity is accelerated vertically downward, and a series of all blade impellers equipped with friction loss reduction means (3) aiming at the same amount of water generation more than 100 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation, a solar-heater (2) + a series of all-blade impellers equipped with friction loss reduction means (3) that accelerates the gravitational acceleration vertically downward in the vacuum and aims at the same amount of water generation 50 times or more Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation, a solar-heater (2) + a series of all-blade impellers equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water by accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation, a solar heater (2) + a series of all blade impeller equipped with friction loss reduction means (3) aiming to generate the same amount of water more than 12 times by accelerating gravitational acceleration vertically in vacuum Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power plant, a solar heater (2) + a series of all blade impellers equipped with friction loss reduction means (3) that accelerates the gravitational acceleration vertically downward in the vacuum and aims to generate the same amount of water 200 times or more. Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power plant, a solar heater (2) + in-vacuum acceleration of gravity is accelerated vertically downward, and a series of all blade impellers equipped with friction loss reduction means (3) aiming at the same amount of water generation more than 100 times Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation, a solar-heater (2) + a series of all-blade impellers equipped with friction loss reduction means (3) that accelerates the gravitational acceleration vertically downward in the vacuum and aims at the same amount of water generation 50 times or more Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation, a solar-heater (2) + a series of all-blade impellers equipped with friction loss reduction means (3) aiming to generate power more than 25 times the same amount of water by accelerating gravitational acceleration vertically in the vacuum Various energy storage cycle coalescing engine with multiple water turbines.   In addition to the existing hydroelectric power generation, a solar heater (2) + a series of all blade impeller equipped with friction loss reduction means (3) aiming to generate the same amount of water more than 12 times by accelerating gravitational acceleration vertically in vacuum Various energy storage cycle coalescing engine with multiple water turbines.   Existing hydroelectric power generation pump (1H) + solar heater (2) + Addition of friction loss reduction means (3) aiming at power generation more than 200 times the same water volume by accelerating gravitational acceleration vertically downward in vacuum Combined engine with various energy storage cycles equipped with a series of all blade impeller water turbines in multiple stages.   The existing hydroelectric power generation pump (1H) + solar heater (2) + additional acceleration of gravity acceleration in vacuum, friction loss reduction means (3) aiming at the same amount of water generation more than 100 times Combined engine with various energy storage cycles equipped with a series of all blade impeller water turbines in multiple stages.   The existing hydroelectric power generation pump (1H) + solar heater (2) + additional gravity loss acceleration means in the vacuum vertically, and friction loss reduction means (3) aiming at the same amount of water generation 50 times or more Combined engine with various energy storage cycles equipped with a series of all blade impeller water turbines in multiple stages.   Existing hydroelectric power generation pump (1H) + solar heater (2) + additional gravity loss acceleration means in the vertical direction in the vacuum, friction loss reduction means (3) aiming for power generation more than 25 times the same water volume Combined engine with various energy storage cycles equipped with a series of all blade impeller water turbines in multiple stages.   The existing hydroelectric power generation pump (1H) + solar heater (2) + additional gravity loss acceleration means in the vacuum vertically, and friction loss reduction means (3) aiming at the same amount of water generation 12 times or more Combined engine with various energy storage cycles equipped with a series of all blade impeller water turbines in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 200 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and friction aiming at the same amount of water generation 200 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive power of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and friction aiming at the same amount of water generation 200 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 200 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, friction aiming at the same amount of power generation 200 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, friction aiming at power generation more than 100 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation more than 100 times the same amount of water Various energy storage cycle coalescing engines provided with a series of all blade impeller water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation of more than 100 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation more than 100 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive power of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, friction aiming at power generation more than 100 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosion force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, friction aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and friction aiming at power generation more than 50 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at electric power generation more than 50 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 50 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation more than 50 times the same amount of water Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aimed at power generation more than 25 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, and friction aiming at power generation of more than 25 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming for electric power generation more than 25 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation of more than 25 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at power generation of more than 25 times the same water volume Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydroelectric power generation, pumping pump (1H) + solar heater (2) vaporization explosive force of around 374 degrees + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 12 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 300 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, friction aiming at the same amount of water generation 12 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or more + gravitational acceleration in vacuum is accelerated vertically downward, friction aiming at the same water volume 12 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 200 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aiming at the same amount of water generation 12 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.   For existing hydropower generation, pumping pump (1H) + solar heater (2) vaporization explosive force of 100 degrees or less + gravitational acceleration in vacuum is further accelerated vertically downward, and friction aimed at the same water volume 12 times or more Various energy storage cycle coalescing engines provided with a series of all-blade flywheel water turbines equipped with loss reduction means (3) in multiple stages.