JP2013076349A - Various energy conservation cycle combined engine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem of power generation by an existing steam turbine including stator blades by half which have no power, block steam velocity and reduce the steam velocity to one tenth, and providing a volume of water of 43,000 times that at the maximum velocity portion, wherein the output of power generation is nearly zero.SOLUTION: To improve the existing steam turbine including the stator blades by half which have no power, block lightweight steam velocity and reduce power generation amount to 1/10 or below in power generation by lightweight matter, all rotor blades are double-reversed by a lateral shaft 1h and gears to generate power by water gravity acceleration in a vacuum of 30 mm Hg. Water injection turbines of 100 sets are combined to generate a power of 100 times that of existing steam turbine power at an approximately mach 3 for each injection turbine. An electric, liquid air, and superheated steam thermal supply facility 3D is assembled with an electrically driven solar light heater which is reduced in cost since fuel cost is zero and power generation cost is reduced to 1/100. For automobiles, ships, and airplanes, liquid oxygen compression drive is used to reduce a volume compression power to 21/60,000 of air compression so as to reduce a fuel cost to 1/10 and increase a speed ten times. For airplanes, space arrival cost is targeted to be reduced to 1/500,000 so that a day trip to anywhere on the earth can be achieved, and that a profit rate for operation of all the products is highest in the world all the time.

Description

The horizontal all-wheel blade water gravity turbine 8R power generation that is oppositely synchronized and rotated in series with the counter-synchronous gear 4c and the series-rotating gear 4d of the present invention is increasing the degree of vacuum of the largest unused renewable energy on earth in the existing pumped-storage power generation. Gravity acceleration addition + sonic speed injection addition + turbine number unlimited head drop unlimited addition, for example, water jet speed close to water jet machine water injection speed Mach 3, or existing turbines such as 100 turbines at head drop 500-800m Aiming to generate power 800 times, fuel cost of boilers and nuclear reactors abolished 0 resource price 0 power generation requiring water gravity turbine 8R power generation electric drive 1 to multistage heat pump 1G and solar heater 21 Heating air is compressed to high temperature, heat production is divided and stored in 1 to 2 stages of compressed heat recovery devices 2C, 50 to 200 MPa superheated steam 50 heat + liquid air 2 a) Divided and stored in cold heat, electric + liquid air cold heat + superheated steam heat supply equipment 3D for endless use, for example, ships, vehicles, airplanes, etc. receive liquid oxygen and the compression volume work rate is 1/0 of air compression 600 × 21/100 = 21/60000 Volumetric power, easy compression of liquid oxygen or water by 20 times, rotational driving of theoretical expansion engine 3P, oxygen combined air injection unit 88A or oxygen combined water injection unit 88K united jet propulsion, ship united propulsion propulsion natural phenomenon 2a Nitrogen, oxygen and CO2 are supplied to seawater Microorganisms and seaweeds increase, food such as fish greatly increases human food such as airplanes In the case of automobile driving, CO2 exhaust 1/10, fuel cost 1/10, 1 / 500,000 costs, aiming to reach space, airplanes and ships aiming at 10x speed, etc. It relates to the technique of body methods.

  The most existing car-driven reciprocating engine in the world consumes enormous amount of fuel due to air compression. Horizontal + all-blade water gravity turbine 8R Vacuum-in-water gravity acceleration power generation electric manufacturing, electricity + liquid air cold heat + superheated steam heat supply equipment 3D Accordingly, the liquid oxygen chamber 5K receives the liquid oxygen 5K, compresses the liquid oxygen 5K, sets the compression volume work rate to 21/60000 volume work rate of air compression, and performs the 200 MPa ultra-high pressure compression injection to obtain the liquid oxygen 5K + liquid fuel. 1b + water 52a is heated to an ultra-high pressure at the inner periphery of the compression theoretical combustion chamber 4Y, and is heated to an ultra-high temperature or optimum temperature and injected into the theoretical combustion chamber 4Y, and fuel injection combustion is performed, for example, a plurality of acetylene oxygen burners The high temperature high temperature superheated steam 50 near the outer periphery is heated by combustion near the center, and the oxygen acetylene flame 3000 ° C. or more is used for various researches of oxygen hydrogen augmentation combustion aiming at thermal decomposition of water. Y is injected as ultra-high pressure combustion gas 49 + superheated steam 50 from the high-pressure / high-temperature combustion gas control valve 5a and the combustion gas injection nozzle 6Y, and drives the theoretical expansion engine 3P to drive various vehicles such as automobiles and cultivators and propellers. 7A, rotor blade 7B and screw 7C are driven, various vehicles, propeller airplanes and screw ships are driven, and the fuel cost is set to 1/10 or 10 times speed by using liquid oxygen 5K for electric power generation, TECHNICAL FIELD The present invention relates to technologies for various energy conservation cycle coalescence engines and coalescence methods aiming at the best in the world.

  The existing jet gas turbine also consumes a large amount of fuel due to air compression, and the rotation output and injection propulsion output are reduced, and space flight such as 16 laps on the earth is impossible on the day of air resistance. As a liquid compression oxygen coalesced air injection unit 88A injection propulsion aiming, horizontal full-blade water gravity turbine 8R power generation electric drive many 1 to multi-stage counter rotating compressor 3T etc. heat pump 1G + solar heater 21 heat production, 50 to 200 MPa superheated steam temperature 50 + liquid air cold heat 28a is divided and stored. As electricity + liquid air cold heat + superheated steam heat supply equipment 3D, the jet propulsion of the airplane is received by liquid oxygen 5K + liquid fuel 1b + water 52a, and liquid oxygen The compression volume work rate is compressed by air compression to 21/60000 volume work ultra-high pressure, and the liquid oxygen control valve 5T + water control valve 5Q + liquid fuel The control valve 1K is opened, each is heated at the inner periphery of the oxygen coalesced air injection section 88A, the inner periphery of the theoretical combustion chamber 4Y, etc., to the optimum temperature, the fuel control valve 25b + oxygen control valve 24D + superheated steam control valve 25 is opened, Each one is injected and burned into one or more theoretical combustion chambers 4Y to challenge superheated steam pyrolysis combustion, for example, acetylene oxygen burner multi-center combustion at 3300 ° C or higher, aiming at pyrolysis electrolysis, by superheated steam combustion aim + superheated steam The combustion of the combustion gas 49 and the superheated steam 50 is changed to the combustion combustion multistage theoretical combustion chamber 4Y combustion or the intake air flow multitheoretical combustion chamber 4Y combustion injection propulsion in the same way. 50-200MPa injection The air ahead is sucked and injected, aiming for space arrival cost of 1 / 500,000, and flying around the earth 16 times a day in space flight close to zero fuel cost anywhere on the earth To allow a day trip, aimed at profit margins preeminent world in a variety of space shuttle airplane class, relates to a technology of various energy conservation cycle combined institutions and coalescence method.

  The existing ship consumes a large amount of fuel by air compression, reduces the rotational output and injection propulsion output, and consumes a large amount of fuel for low-speed movement. / 60000 volumetric power, liquid air production air compressor is also added to use the best counter-rotating compressor 3T, horizontal full blade water gravity turbine 8R power generation electric drive 1-multiple stage counter-rotating compressor 3T As the isothermal pump 1G compression, the solar heater 21 solar heating air is compressed to a high temperature, heat production is divided and stored in the 1-multistage compression heat recovery unit 2C, and 50-200 MPa superheated steam 50 heat + Liquid air 28a is divided and stored in cold heat, and as electricity + liquid air cold heat + superheated steam heat supply equipment 3D, liquid oxygen 5K + liquid fuel 1c + water 52a is received pump compression 50 to 200 MPa, liquid oxygen The control valve 5T + liquid fuel control valve 1K + water control valve 5Q is opened and heated to the optimum temperature in the inner periphery of the oxygen combined water injection unit 88K and the inner periphery of the theoretical combustion chamber 4Y, respectively, and the oxygen combined water injection unit 88K and the theoretical expansion engine Injecting and rotating each of the 3P injections to make the oxygen combined water injection unit 88K injection propulsion and the theoretical expansion engine 3P screw 7C rotation propulsion, aiming at 10 times the existing ship speed and 1/10 fuel cost In the process of screw propulsion and exhaust, it is possible to select simple water jet propulsion, and in the process of jet propulsion, natural phenomena are accelerated to supply oxygen, nitrogen, CO2, etc. into the sea, and microorganisms, phytoplankton, seaweeds, corals, fish, etc. The present invention relates to technologies for various energy conservation cycle coalescence engines and coalescence methods that increase the food of breeding human beings and aim for the world's best profit rate.

  Considering the elementary school science without brainwashing, the existing best steam turbine power generation at the same pressure and volumetric capacity kg kg m / sec is slightly less than 1/1700 of the horizontal rotor blade water gravity turbine 8R power, Since the steam velocity is blocked and the stationary vanes with no work are alternately half-damped with the moving blades, the vapor velocity is close to 1/100 and the gas volume is inversely proportional to the pressure. Because it requires a turbine blade capable of 240 times volume up to atmospheric pressure and 30 times 4mmHg and 25 times volume up to 6000 times volume, the high pressure steam speed is unreasonably low and there is a background that requires a major revolution. In addition to responding to the turbine blade area, the seawater temperature is raised by 7 degrees with all the generated heat, making the whole sea surface temperature-increasing natural phenomenon, increasing abnormal weather without upper limit, and by heavy rain of seawater around 50 to 100 years Humanity is extinct It is in increasing the risk of stick. The green earth is a miracle product and there is a great risk of approaching other stars. According to the explanation of the power station, if the rise in seawater temperature is 7 degrees or less, there is no influence on the environment, but for example, 7 degrees in the sea area where the seawater temperature is 30 degrees If the rise continues, the typhoon wind speed will be 300m / sec, etc., and there will be danger of human beings extinction due to the covering of concentrated rainwater salt in seawater, etc., and the temperature of the whole sea surface will rise and nutrients such as nitrogen, oxygen, CO2 etc. The natural phenomenon that has supplied water is made impossible, the number of marine microorganisms, phytoplankton and seagrass is drastically reduced. The number of marine foods such as fish is drastically reduced. If China continues to grow 10%, the rise in seawater temperature will be 10%. The current rate is twice as high as the current rate in 20 years, and the speed of typhoons, seasonal winds and ocean tornadoes is 100m / sec. And forestry and residential areas Such as close to 0, for Japan residents it is difficult before and after 50 years, there is a background necessary technical development that corresponds to the existing technologies worst part before it's too late.

When the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / sec, are set to 1700 times the water power of the existing steam turbine power generation, and the water gravity acceleration power generation in the vacuum, the same speed 1/100 volumetric power will be the existing steam turbine power generation. It is expected to generate a huge amount of power generation such as 1700 times power generation with 100 units at a height of 500m or more, water resources are enormous, and there are many by-products when using deep ocean water, and fuel cost is 0 power generation Infinite power generation, horizontal full blade hydrogravity turbine 8R power generation cylindrical turbine blade group 8A horizontal shaft plate 16 precision assembly easy, including fully cylindrical assembly fixed cylindrical turbine blade group 8A, easy to fully automatic processing and assembly, Aiming for 1700 times power generation with 100 fully automated assembly, driven by water gravity energy with acceleration of gravitational acceleration in the earth's largest vacuum, and shifted to expanding the use of low-cost electricity by generating zero fuel costs with a large amount of inexpensive water resources Then, the solar heater 21 heats the air into sunlight and the water gravity turbine 8R compresses the heat multiple times with a heat pump 1G such as a 1-stage multi-phase reversing compressor 3T with zero fuel cost and power generation and electric drive. Then, 50-200 MPa superheated steam temperature 50 + liquid air cooling heat 28a is divided and stored, supplied from electricity + liquid air cooling heat + superheated steam temperature supply facility 3D, received in the liquid oxygen chamber 5K, storage battery, etc., and driven by liquid air 1/10 fuel cost drive and 10-fold speed drive of the vehicle, airplanes and ships of this type, there is a background that can be obtained extremely low-cost power storage battery drive and electric drive, and prevention of global warming with little CO2 exhaust.

In high school and university, the existing engine is described as the best engine, and when we return to elementary school science without brainwashing and think about the best engine, the unit of work is kg weight m / sec. The engine is the best engine in terms of generating rotational output at a high speed, but there is no trace of thought. Therefore, for example, horizontal full-blade hydrogravity turbine 8R power generation has a background of low fuel cost power generation, and when it is considered in elementary school science to heat enormous methane hydrate sleeping in the sea near Japan or permafrost. Zero heating is the best. Therefore, the heat pump 1G such as a 1-multiple counter-rotating compressor 3T or 1-multiple stage of the fuel cost 0 power generation electric drive is made by using the solar heating air 28a as the fuel cost 0 power generation electric drive solar heater 21. Compressed heat recovery unit 2C compresses the heat multiple times, collects and stores in cold liquid oxygen 5K, liquid nitrogen 5L + hot superheated steam 50, and in the process of infinite use of heat, for example, methane under permafrost The superheated steam 50 is injected into the hydrate and divided into methane and water, and the methane is recovered with liquid nitrogen cooled liquid methane, and the superheated steam injection is continued forever to make the methane recovery enclosure grazing at a suitable temperature and with many water droplets. , Increase the use of heat by humans, make liquid air driven cars, ships and spacecrafts prime, aiming to reach 1 / 500,000 in space, speeding natural phenomena 2a in the process of driving ships, Seaweeds Gore, etc. to increase the food of fish such as the human race in the growth the food chain, etc., to prevent the heavy rain of sea water there is a background that can put off the human race extinct. Revolution of employment growth that will increase the employment by making the manufacturing operation monopolized 100% worldwide, with the operating profit rate becoming 10 times larger than the existing operational profit ratio, as the ship revolution and airplane revolution aiming at 10 times speed with low fuel cost There is a background that can be.

Japanese Patent No. 1607151, Patent No. 1609617, Patent No. 1645350, Patent No. 1924889, Patent No. 1912522, Patent No. 1959305, Patent No. 1986119, Patent No. 2646636, 1992 U.S. Pat. No. 5,133,305, 1993 U.S. Pat. US Pat. No. 5,429,078, 1997 US Pat. No. 5,701,864, PCT International Application No. PCT / JP97 / 01814, US Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, PCT International Application No. PCT / JP97 / 02250 No. 6,263,664.

PCT International Application Publication No. WO 2010/101017 PCT / JP2010 / 052171 etc. have 326 applications from the date of filing of Japanese Patent Application No. 2009-048869 on March 3, 2009 to the date of filing of Japanese Patent Application No. 2010-007805 on January 18, 2010 Since then, there are 10 applications including PCT until May 13, 2011, the filing date of Japanese Patent Application No. 2011-107954.

  In the existing thermal power plants in the world, the total heat generation is 7 degrees Celsius, and the seawater temperature rise is 1000 times in 100 years, and the downdrafts and updrafts are increased as much as possible. As the number of storms, torrential rains, heat waves, cold waves, etc. increases without limit, typhoons, seasonal winds, tornadoes, etc., around 100 years in the sea near Japan, salt water on the land due to concentrated heavy rains, etc. Covering increases the danger of human land food loss, making it impossible for the natural phenomenon of supplying nutrients to the sea-cooled seabed in winter, dramatically reducing microorganisms, phytoplankton, seaweeds, corals, etc., fish through food chains, etc. The number of human underwater foods has been reduced as much as 1/100, and droughts, torrential rains, typhoons and seasonal winds have increased 10 times in 100 years. For example, typhoons and seasonal winds have an upper limit such as 300m / sec. weather Giant seafloor bedrock expansion earthquakes and tsunamis, and eastern Japan earthquakes and tsunamis have also become huge, preventing heavy rain in seawater to increase the danger of human extinction, preventing global warming such as rising seawater temperature, There is a challenge to postpone human extinction. A recent issue is the rapid increase in countries with deficits. The biggest cause is the epidemic that easily makes profits with low labor cost countries as the world's factories, and all the developing countries that can easily make profits compete for the best in imitation improvement like Japan in the past, so cheap and excellent products There is a risk of the destruction of manufacturing facilities in the developed countries and the deficit of jobs in the developed countries, and the destruction of employment.There is an urgent need to increase profit margins in developed countries because the current economic crisis is in the early stages. However, as a top-secret manufacturing operation of an invention that continues to be a 100% monopoly on a global scale forever, there is a problem that makes the world eternal with an outstanding profit rate.

Horizontal full-blade water gravity turbine 8R Fuel cost 0 Power generation Low cost Electric drive All, heat production by solar heater 21 + 1-multiple stage counter-rotating compressor 3T etc. heat pump 1G + 1-multiple stage compression heat recovery unit 2C, As the electric + liquid air cold heat + superheated steam temperature heat supply equipment 3D, the received liquid oxygen 5K is compressed to a 21/60000 volumetric compression work rate of air compression, and a theoretical combustion chamber 4Y that can easily perform ultrahigh pressure combustion and ultrahigh temperature combustion. For example, a 4Y-driven theoretical expansion engine 3P is used to heat the high-temperature high-temperature superheated steam 50 near the outer periphery in the combustion near the center of the oxygen acetylene burner, aim at thermal decomposition of the superheated steam in the combustion at 3000 ° C. or higher, and increase the oxygen-hydrogen combustion. And oxygen coalescence water injection unit 88K and oxygen coalescence air injection unit 88A, and vehicles such as automobiles, ships and airplanes are driven by rotational force and propulsion and propulsion. The jet propulsion drive speeds up the natural phenomenon 2a, supplies oxygen, nitrogen, CO2, etc. into the sea, increases microorganisms, phytoplankton, seaweeds, corals, fish, etc. As a 16-day trip around the earth in the heyday of space flight, we are aiming for a day trip anywhere on the earth and aiming for a small amount of CO2 exhaust in the atmosphere. It will be the best in the world for profit margins and the best in the world for new jobs. It will prevent droughts, torrential rains, typhoons, seasonal winds, heavy rains on seawater and earthquakes and tsunamis, prevent global warming and delay human extinction.

Horizontal type full-blade hydrogravity turbine 8R Fuel cost 0 Low cost power generation The counter synchronous rotation by the counter synchronous gear 4C and the effect of rotating the same speed by 100 series rotation gear 4D, etc. is very large, and the cylindrical turbine blade group 8A1 100 types of fully automatic manufacturing of 100 types, the effect of manufacturing 100 units is very large, the effect of simplifying the structure without the need of a boiler or nuclear reactor is also very large, and the vertical type is close to the enumeration of the last moving blade group of existing steam turbines Comparing and explaining the total blade hydrogravity turbine 8M power generation with the same maximum speed as the last blade group, the steam of 1,700 times the volume of water at an atmospheric pressure of 100 ° C. and 760 mmHg is boiled at an exhaust temperature of 29 ° C. and a vacuum degree of 30 mmHg. According to the law of 760mmHg × 1700 = 30mmHg × V2 volume water vapor, V2 = 760/30 × 1700 = water 43,000 times volume water vaporIn other words, the vertical-type full-blade water gravity turbine 8M power generation lined up with the existing steam turbine maximum speed power blade group is far superior in the output generation stage, and 430 times power generation at 1/100 volume water speed of superheated steam In addition to increasing the amount of vacuum, the increase in the degree of vacuum is far superior, and the use of gravitational acceleration in a vacuum is further increased by 43,000 times the power generation rate in one unit with 100 additional units, and the water jet speed Mach Experiments are necessary, such as calculating the amount of power generation three times when water is injected at 3, but it has a great effect on the major revolution that greatly reforms the power generation cost to 1/10.

The green earth is a miracle product and has a high risk of approaching other stars. For example, if China continues to grow 10% for 100 years, the temperature rise in the sea near China will exceed 1000 times due to thermal power generation and nuclear power generation. There is a strong possibility that the extinction of mankind will rapidly approach within 100 years, such as the increase in guerrilla heavy rain in Japan is 1000 times the heavy rain in seawater, the current drastic decrease in fish is close to 0, and seawater temperature rises 0, CO2 emissions 0 and fuel costs 0 Electric power drive is required. Therefore, the fuel cost is 0. Electricity generated by power generation electricity + liquid air cold heat + superheated steam temperature heat supply equipment 3D is received into the liquid oxygen chamber 5K, and the compression work rate of combustion oxygen is set to 21/60000 volumetric compression work rate of air compression, As the thermal decomposition of the superheated steam 50 and the protection of the theoretical combustion chamber 4Y in the high temperature combustion near the center of the theoretical combustion chamber 4Y, the theoretical expansion chamber 3Y, the oxygen combined water injection unit 88K and the oxygen combined air injection unit 88A are most It has the effect of being able to drive efficiently, and in addition to the effect that automobiles, ships and airplanes can be aimed at fuel costs of 1/10 or 10 times the speed, the effect of being able to target the space arrival cost to 1 / 500,000 of existing space rockets The wheels, screws 7C, propellers 7A and rotor blades 7B are driven by the theoretical expansion engine 3P to drive the rotational force of ships, airplanes, automobiles, etc. a. The effect of increasing the digestive capacity of underwater microorganisms such as CO2 to tens of thousands of times of the forest is great, and phytoplankton, seaweeds, corals, etc. are proliferated, and fish and other marine foods such as fish are greatly increased in the food chain. It will increase, preventing desertification, droughts, torrential rains, typhoons, seasonal winds, earthquake tsunamis, and so on, postponing the most important human extinction of humanity and aiming for the world's best profit rate.

Airplane drive receives liquid oxygen from electricity + liquid air cold heat + superheated steam temperature heat supply facility of fuel cost 0 horizontal full blade water gravity turbine 8R power generation electric drive, liquid oxygen 5K + liquid fuel 1c + water 52a is compressed to ultra high pressure Then, the liquid fuel control valve 1K + the liquid oxygen control valve 5T + the water control valve 5Q is heated to the optimum temperature for opening, and the oxygen gas + fuel gas near the center of the mixed injection ignition combustion outer peripheral high-pressure high-temperature superheated steam is superheated to reach the maximum temperature. Combustion theory combustion chamber 4Y protection combustion superheated steam pyrolysis combustion aimed at oxygen hydrogen increase combustion aim, driving oxygen coalesced air injection part 88A, aiming at space arrival cost 1 / 500,000 of existing space rocket, same fuel cost 10x injection propulsion output has the effect of aiming for the best use of space. As for the propeller flight, rotor blade flight and injection propulsion aiming at low fuel costs in the atmosphere, the steam injection speed and combustion gas injection speed are the highest in vacuum, so the existing space rocket ground mass injection is considered the worst, From the vicinity of the highest flight altitude, increase the injection amount of high-pressure high-temperature combustion gas 5M + high-pressure high-temperature steam 5N of 50-200MPa, make 16 rounds of the earth a day, etc. There is a target effect.

Explanatory drawing of 4C4D of the horizontal type full blade air gravity turbine 8R (Example 1) Explanatory drawing of 8A16 of horizontal type | mold whole blade water gravity turbine 8R (Example 2) Explanatory drawing of the solar heater 21 of electricity + liquid cold / heat supply equipment 3D (Example 3) Explanatory drawing of the theoretical gas compressor 3T (Example 4) Explanatory drawing of the theoretical expansion engine 3P (Example 5) Explanatory drawing of oxygen combined water injection part 88K (Example 6) Explanatory drawing of oxygen combined air injection part 88A (Example 7) Explanatory drawing of theoretical expansion engine automobile 4K (Example 8) Explanatory drawing of oxygen coalescence screw ship 39H (Example 9) Explanatory drawing of the oxygen coalescence screw injection ship 39K (Example 10) Explanatory drawing of the oxygen coalescence injection ship 39J (Example 11) Explanatory drawing of oxygen coalescence injection plane 39L (Example 12) Explanatory drawing of oxygen combination propeller plane 39M (Example 13)

  The use of gravity acceleration in a vacuum for a long period of time is prevented by brainwashing such as existing steam turbine power generation, and one unit of 100 units prevents the aim of generating power 43,000 times that of one existing steam turbine power generation, for example, the existing best steam turbine power generation Steam pressure is reduced by reducing the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / second, to 1/1700 of the water power, and by installing the stationary blades alternately with the moving blades and blocking the rotation output to zero. The seawater temperature rises by 7 degrees with all of the driving heat of the sea, the fishes drastically decrease, the bottom bedrock expands into earthquakes and tsunamis, and the typhoons, seasonal winds and sea tornadoes around Japan are increased to around 100 m / sec. There is a danger that food extinctions and humankind extinction will be approaching rapidly by providing salt coating on the land in around 50 to 100 years, such as heavy rain of suction seawater is expected over the sea. That is, the invention becomes too large due to many fatal drawbacks of the existing technology. Therefore, the invention is described in the explanation of the reference numerals, and the parts that have been repeatedly explained in the previous application are omitted, and the parts other than the horizontal type full-blade water gravity turbine 8R are omitted. We will try to materialize the invention that omits common sense by explaining with substitute examples.

Fig. 1 Horizontal type full-blade hydrogravity turbine 8R power generation, in which gravity acceleration in vacuum is added to existing pumped-storage power generation or hydroelectric power generation, has a horizontal shaft 16A fixed on both sides of a cylindrical turbine blade group 8A by a horizontal shaft plate 16 and one type. 100 sets of opposed series full blade impeller turbines as one set, or 200 sets of full series impeller turbines and bite series full blade impeller turbines as one set, fully automatic casting Or 100 to 200 sets vertically, fully automatic processing, etc., and 100 sets in the existing highest building height of 828m, 1 set, and 3E water by the specific material riser 2F. Ascending vertically to 828 m, etc., water 3E is injected by Mach 1 to 3 etc. with specific material accelerator 6W, gravity acceleration accelerated vacuum acceleration driving, and cylindrical turbine blade group 8A is counter-synchronized by counter-synchronous gear 4C. Rotating and rotating at the same speed in the same direction, such as 100 sets with the same series rotation gear 4D, and providing a gravity acceleration unit 1g for accelerating water in a vacuum, making it easy to mass-produce inexpensively, eliminating the need for a boiler and a nuclear reactor, and so on. The generator 1 is selectively provided as the counter synchronous gear 4C main shaft or the series co-rotating gear 4D main shaft, and is aimed at driving power generation cost of 1/10 or more outside the turbine outer casing 77a, and the structure is extremely simple and extremely inexpensive. Make electric product infinite and electric drive infinite, and make the world's best energy conservation cycle combined engine power generation and combined method power generation with outstanding profitability.

The horizontal type full-blade water gravity turbine 8R power generation is composed of 100 units in the existing highest building 828m vertically in the turbine outer box 77a and one unit. As a 1-injection-speed water 3E injection, Mach 3 and the like are injected into the cylindrical turbine blade group 8A with the highest gravitational acceleration acceleration effect in vacuum, and a horizontal all-blade water-gravity turbine 8R is driven to generate power to maintain Mach 3 to 1 speed. Then, the horizontal turbine blade gravity gravity turbine 8R power generation that effectively uses the head by driving the next turbine is generated, and the head is reduced to the head 828m by the frictional heat cooling so that the air extractor 51 can easily exceed the existing power generation maximum vacuum such as 30 mmHg. 100 sets are used, and the final stage vacuum degree of existing steam turbine power generation is 30mmHg. Compared with the power generation amount of the bin 8R, 1/1000 volume of water is 43 × 100 = 4300 times the amount of water power generation by Mach 1 speed injection, and the power generation amount of the astronomical magnification that requires experiments is combined. Engine fuel cost 0 Extremely inexpensive power generation.

  The most important configuration of the horizontal turbine blade 8R power generation in FIG. 2 in the cylindrical turbine blade group 8A is super water repellency and the lowest friction loss is the most important, so the wear-resistant water repellent plating (3a) is easy. Water repellent coating (3b) at the time of shutdown is made easy, and the inner cylinder surface is entirely cut to make it lighter and have a larger diameter. The horizontal shaft 16A is fixed to the both sides of the cylindrical turbine blade group 8A with the horizontal shaft plate 16 as one type. The horizontal full-blade water gravity turbine 8R is easy to manufacture, fully automatic, and easy to assemble. As much as possible, 100 units can be manufactured in the vertical 828m as the maximum experimental diameter. As a result, the horizontal all-blade-opposed water-gravity turbine 8R is set in the same direction and synchronized with the series-rotating gear 4D. Horizontal type When producing the maximum amount of distilled water, such as tropical desert areas, using a moving blade series water gravity turbine 8R or a horizontal full blade driven water gravity turbine 8R, water with a specific material accelerator 6W close to each pair As 3E injection, the amount of specific material accelerator 6W is adjusted according to the amount of distilled water produced and the amount of cooling of frictional heat vaporized water, and the horizontal shaft 16A is equipped with the generator 1 and more than 100 sets outside the turbine outer casing 77a. Horizontal power blade hydrogravity turbine with driving power generation, extremely simple structure, no need for boilers and nuclear reactors, making manufacturing costs extremely low, and operating profit margin being the best in the world with no fuel consumption and other comparisons 8R Extremely inexpensive power generation.

The solar heater 21 shown in FIG. 3 is electrically driven by a horizontal full rotor blade water gravity turbine 8R fuel cost 0 power generation extremely inexpensively. The solar heater 21 will be described below. The solar heater 21 is provided with a rotation support portion 4f as a floating device or a land device that provides buoyancy on the water surface or a circular railroad on a flat surface, and maintains and controls sunlight at right angles from east to west. It is equipped with a gear unit 4d and a roller 4e, and as a cylindrical rotating unit 77G, controls the vertical rotation of the sunlight in the vertical direction, and controls the rotation of the east-west direction by using the buoyancy. Thus, the solar air with the maximum heat quantity on the earth is collected in a straight line by the rectangular long lens 2d and the heat absorption pipe 4H is provided in the vicinity of the focal length. The temperature of the external air passage 28A and the temperature of the air 28a also rises to the maximum, and the entire lens material can be used as a rectangular long lens 2d that linearly extends an existing lens cross section, and a heat insulating material 2c such as foamed plastic is cylindrical. As a long cylinder such as a cylinder surrounded by a rotating portion 77G or the like, the long long lens 2d is a joint 80A + clamp 80B and the sealed upper part is a 4H external air passage 28A. Pump 1G performs suction compression, counter-rotating compressor 3T or the like as heat pump 1G is set to 800 to 1200 ° C. multiple times, 1 to multiple-stage compression heat recovery unit 2C repeats heat recovery for each compression, and liquid air 28a Is stored in a liquid oxygen chamber 5K + liquid nitrogen chamber 5L, 50 to 200 MPa superheated steam 50 warm heat is divided and stored in a high-pressure high-temperature steam chamber 5N, and electricity + liquid air cold heat + superheated steam is stored. Use for various applications in the heat supply facility 3D, the electric drive flourish and battery driven prime fuel costs 0 resource prices 0 power, to various thermal utilization prime and various cold use PRIME electrical product.

The horizontal full-blade hydrogravity turbine 8R in FIG. 4 has a fuel cost of 0 power generation and an extremely inexpensive electric drive theoretical gas compressor 3T, which is an improvement of the existing gas turbine and steam turbine power generation. However, when liquid oxygen compression is used, the compression work rate becomes 21/60000 of air compression, so this will be filed later, and Boyle's law gas volume is inversely proportional to pressure. Aiming at the maximum amount of intake air by sucking in from the circumference, and aiming at the maximum intake air speed with the upper compression blades 8g and lower compression blades 8h of all moving blades counter-rotating compression blades, the assembled compression blades 4j As a result, it is easy to assemble, to maximize the inlet area and to optimize the compression efficiency. The counter-rotating gear device 85Y for driving and the counter-rotating gear device 85Y for driving the lower side compression blade 8h are driven to counter-rotate in the opposite directions so that the relative outer peripheral speed can be double that of the existing axial compressor. The compressed air pressure and volume are increased, the most efficient compression as the theoretical best compressor is performed, and the final compression blade 6 is pressed into the compression heat recovery unit 2C to produce various heat exchange heat, for example, heating of the solar heater 2 Air is compressed at a high temperature multiple times with a heat pump 1G selected including the counter-rotating compressor 3T, and various heat recoveries are used in the 1-multistage compression heat recovery unit 2C for each compression high temperature, and the surplus is cooled with liquid air + Divided and stored as superheated steam temperature and heat, supply equipment 3D for electricity + liquid air cooling + superheated steam temperature, and used for various applications.

The theoretical expansion engine 3P theoretical combustion chamber 4Y drive in FIG. 5 will be described. From the horizontal + all-blade water gravity turbine 8R fuel cost 0 power generation extremely cheap electricity production from the electric + liquid air cold heat + superheated steam temperature supply equipment 3D, the liquid Liquid oxygen 5K is received and stored in oxygen chamber 5K Preservative electricity + superheated steam is selected and received, theoretical combustion chamber 4Y driven by liquid oxygen 5K combustion high pressure high temperature combustion gas control valve 5a open theoretical expansion engine 3P drive compresses liquid oxygen 5K Thus, the compression volume work rate is set to 21/60000 volume compression work rate of air compression, liquid oxygen 5K + liquid fuel 1c + water 52a is compressed to an ultrahigh pressure such as 50 to 200 MPa, and liquid oxygen control valve 5T + liquid fuel control valve 1K + water control valve 5Q is heated to the optimum temperature at the inner wall of the open theoretical combustion chamber 4Y, the superheated steam control valve 25 including the received superheated steam 25 + the oxygen control valve 24D + the fuel control valve 25b is opened, For example, the outer peripheral high-pressure high-temperature superheated steam 50 is heated by combustion at 3000 ° C. or more in the vicinity of a plurality of centers of oxygen acetylene burner, and a part of the superheated steam 50 is aimed at the combustion of suction pyrolysis electrolysis oxygen oxygen hydrogen increase near the center. Liquid oxygen 5K + liquid fuel 1c + water 52a on the inner wall of the expansion engine 3P is heated to produce superheated steam 50, fuel, oxygen, inner wall protection combustion or super high pressure high temperature combustion at the optimum temperature, and high pressure high temperature combustion gas control valve 5a open air suction The theoretical expansion engine 3P is driven by cooling the flow passage 5a by injection to increase the amount of fuel combustion, and the horizontal axis is 1h counter-rotating. The volume of the Boyle's law gas is inversely proportional to the pressure. In the engine 3P, the combustion gas 49 is used as the high-pressure and high-temperature combustion gas 49, and the fuel pipe 25a is fueled from a plurality of locations in the extended upper expansion blade group 8d in the expansion process of 380 degrees in the circumferential direction from the center. Combustion combustion is performed, and air compression is performed between the turbine outer casings 77a, respectively, and the upper expansion blade group 8d and the lower expansion blade group 8e are injected at optimum locations, and are injected from the assembly turbine blade group 8f as an ultra-high speed injection drive with an increased combustion amount. The theoretical expansion engine 3P is easy to assemble.

Explaining the oxygen combined water injection unit 88K streamline type theoretical combustion chamber 4Y multiple drive of FIG. 6 Horizontal full-blade water gravity turbine 8R fuel cost 0 power generation extremely cheap electricity production of electricity + liquid air cold heat + superheated steam temperature heat supply equipment From 3D, liquid oxygen 5K is received and stored electricity + superheated steam is selectively received, liquid oxygen 5K driving oxygen combined water injection unit 88K driving, compressing liquid oxygen 5K liquid, the compression volume work rate is air Compressed 21/60000 volumetric compression power, liquid oxygen 5K + liquid fuel 1c + water 52a is compressed to ultra high pressure such as 50-200 MPa, liquid oxygen control valve 5T + liquid fuel control valve 1K + water control valve 5Q is opened, theoretical combustion The chamber 4Y is heated to the optimum temperature by the inner wall of the chamber 4Y, the inner wall 5d of the combustion flow, etc., and the superheated steam control valve 25 + oxygen control valve 24D + fuel control valve 25b is opened, for example, an oxygen acetylene burner The outer peripheral high-pressure high-temperature superheated steam 50 is heated by combustion at 3000 ° C. or more in the vicinity of several centers, and a part of the superheated steam 50 is aimed at combustion with increased suction pyrolysis electrolysis oxygen-hydrogen in the vicinity of the center. The liquid oxygen 5K + liquid fuel 1c + water 52a is heated to produce superheated steam 50, fuel, oxygen, inner wall protective combustion or ultrahigh pressure / high temperature combustion at the optimum temperature, and the superheated steam control valve 25 is provided on the outer periphery of the central plural theoretical combustion chamber 4Y. The super high pressure superheated steam 50 is injected from the open superheated steam injection nozzle 6A, the injection propulsion output is increased by the outer peripheral heating of the central plural theoretical combustion chamber 4y, and the intake air passage 5b around the leading theoretical combustion chamber 4Y combustion gas injection nozzle 6Y. The oxygen combined water injection unit 88K has a front through air suction, a plurality of through-air suctions, a plurality of fuel control valves 25b are opened, a plurality of jet combustions are added to increase the combustion amount, and a similar peripheral air suction Including streamlined theoretical combustion chamber 4Y selected combustion, the combustion quantity increased added jet combustion rocket combustion, oxygen coalesce water injection unit 88K, to various energy storage cycles combined engine and coalescence method.

The oxygen combined air injection unit 88A streamlined theoretical combustion chamber 4Y multiple drive in FIG. 7 will be described. Horizontal type full-blade water gravity turbine 8R Fuel cost 0 Power generation Extremely inexpensive electric production of electricity + liquid air cold heat + superheated steam temperature heat supply equipment From 3D, liquid oxygen 5K is received and electricity + superheated steam is selectively received, and the oxygen combined air injection unit 88A drive of the liquid oxygen 5K drive compresses the liquid oxygen 5K into the liquid, thereby compressing the compression volume work rate by air 21/60000 volumetric compression power, liquid oxygen 5K + liquid fuel 1c + water 52a is compressed to an ultrahigh pressure such as 50 to 200 MPa, liquid oxygen control valve 5T + liquid fuel control valve 1K + water control valve 5Q is opened, theoretical combustion chamber 4Y inner wall, combustion flow inner wall 5d, etc. are heated to an optimum temperature, and FIG. 5 superheated steam control valve 25 + oxygen control valve 24D + fuel control valve 25b is opened, for example, an oxygen acetylene burner The outer peripheral high-pressure high-temperature superheated steam 50 is heated by combustion at 3000 ° C. or more in the vicinity of several centers, and a part of the superheated steam 50 is aimed at combustion with increased suction pyrolysis electrolysis oxygen-hydrogen in the vicinity of the center. The liquid oxygen 5K + liquid fuel 1c + water 52a is heated to produce superheated steam 50, fuel, oxygen, inner wall protective combustion or ultrahigh pressure / high temperature combustion at the optimum temperature, and the superheated steam control valve 25 is provided on the outer periphery of the central plural theoretical combustion chamber 4Y. The super high pressure superheated steam 50 is injected from the open superheated steam injection nozzle 6A, the injection propulsion output is increased by the outer peripheral heating of the central plural theoretical combustion chamber 4y, and the intake air passage 5b around the leading theoretical combustion chamber 4Y combustion gas injection nozzle 6Y. A plurality of through-air suction fuel control valves 25b are opened at the head of the oxygen combined air injection unit 88A, and a plurality of jet combustions are added to increase the combustion amount. Including streamlined theoretical combustion chamber 4Y selective combustion, increase the combustion amount by adding jet combustion to rocket combustion, aim for oxygen combined air injection part 88A ultra high pressure mass combustion 100 times output, and target 10 times speed injection propulsion of existing jet aircraft Thus, an oxygen coalescence air injection unit 88A that aims at 10 times the same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate as the existing jet aircraft is made into various energy storage cycle coalescence engines and coalescence methods.

The theoretical expansion engine 3P automobile theoretical combustion chamber 4Y drive of FIG. 8 will be described. From the horizontal type full-blade water gravity turbine 8R fuel cost 0 power generation extremely cheap electricity production, electricity + liquid air cold heat + superheated steam temperature heat supply equipment 3D, Liquid oxygen 5K is received and electricity + superheated steam is selectively received, and the theoretical combustion chamber 4Y combustion high pressure high temperature combustion gas control valve 5a open theoretical expansion engine 3P drive of liquid oxygen 5K is driven by liquid compression of liquid oxygen 5K, The compression volume work rate is set to 21/60000 volume compression work rate of air compression, and liquid oxygen 5K + liquid fuel 1c + water 52a is compressed to ultrahigh pressure such as 50 to 200 MPa by liquid fuel pump 4a + liquid oxygen pump 4b + water pump 4c. Then, the liquid oxygen control valve 5T + liquid fuel control valve 1K + water control valve 5Q is opened, heated to the optimum temperature on the inner wall of the theoretical combustion chamber 4Y, etc. FIG. Open the element control valve 24D + fuel control valve 25b, for example, heat the outer peripheral high-pressure high-temperature superheated steam 50 by combustion at 3000 ° C. or more in the vicinity of a plurality of centers of oxygen acetylene burner, and draw part of the superheated steam 50 in the vicinity of the center by pyrolysis electrolysis oxygen Aiming at increased hydrogen combustion, the superheated steam 50 heats the liquid oxygen 5K + liquid fuel 1c + water 52a on the inner wall of the theoretical combustion chamber 4Y to achieve the superheated steam 50, fuel, oxygen, inner wall protection combustion or ultrahigh pressure / high temperature combustion at the optimum temperature. The high-pressure high-temperature combustion gas control valve 5a is opened, the theoretical expansion engine 3P is driven, the generator 1 is driven, the storage battery 1A is charged, the storage battery drive wheel 4J is driven, and the CO2 exhaust 1/10 fuel cost 1/10 operation Profit rate Targeted 10 times that of existing automobiles, theoretical expansion engine 3P automobiles, various energy conservation cycle coalescence engines and coalescence methods.

FIG. 9 Explaining the drive of the theoretical expansion engine 3P theoretical combustion chamber 4Y of the oxygen coalescence screw ship 39H: horizontal full-blade water gravity turbine 8R fuel cost 0 power generation extremely cheap electricity production of electricity + liquid air cold heat + superheated steam temperature heat supply Liquid oxygen 5K is received from the equipment 3D and electricity + superheated steam is selectively received, and the theoretical combustion chamber 4Y combustion high pressure high temperature combustion gas control valve 5a of the liquid oxygen 5K is opened. The theoretical expansion engine 3P drive compresses the liquid oxygen 5K. Thus, the compression volume work rate is set to 21/60000 volume compression work rate of air compression, and the liquid oxygen 5K + liquid fuel 1c + water 52a is compressed to an ultrahigh pressure such as 50 to 200 MPa by the liquid fuel pump 4a + liquid oxygen pump 4b + water pump 4c. After compression, the liquid oxygen control valve 5T + liquid fuel control valve 1K + water control valve 5Q is opened, heated to the optimum temperature on the inner wall of the theoretical combustion chamber 4Y, etc. Open steam control valve 25 + oxygen control valve 24D + fuel control valve 25b, for example, heat the outer peripheral high-pressure high-temperature superheated steam 50 by combustion at 3000 ° C. or more in the vicinity of a plurality of oxygen acetylene burners, and suck a part of the superheated steam 50 near the center Aiming at increased combustion of electrolysis / oxygen / hydrogen hydrogen, the superheated steam 50 heats the liquid oxygen 5K + liquid fuel 1c + water 52a on the inner wall of the theoretical combustion chamber 4Y to protect the superheated steam 50, fuel, oxygen, and inner wall at the optimum temperature, High-pressure high-temperature combustion, open high-pressure high-temperature combustion gas control valve 5a can be selected multiple open theoretical expansion engine 3P drive, screw drive to drive the oxygen coalesced screw ship 39H, CO2 exhaust 1/10 fuel cost 1/10 operating profit Establishing an oxygen coalescence screw ship 39H, aiming at 10 times the rate of existing ships, various energy conservation cycle coalescence engines and coalescence methods .

FIG. 10 The oxygen combined water injection part 88K theoretical expansion engine 3P driving by the theoretical combustion chamber 4Y of the oxygen combined screw injection ship 39K will be described. The horizontal full-blade water gravity turbine 8R fuel cost 0 power generation + Liquid air cooling heat + superheated steam temperature supply facility 3D receives liquid oxygen 5K + selectively receives superheated steam, and the screw drive by the theoretical expansion engine 3P is driven in the same manner as in FIG. The theoretical combustion chamber 4Y is moved to the oxygen combined water injection section 88K as illustrated in FIG. 6 and the air 28a inlet is expanded forward to be as close to a straight line as possible, and the leading theoretical combustion chamber 4Y is combusted. A suction air passage 5b is provided around the gas injection nozzle 6Y, and bubbles are injected at the bottom of the jet combustion additional vessel for rocket combustion, and a plurality of streamlined theoretical combustion chambers 4Y are adapted to the application. Composed of a line and intake air passage, liquid oxygen 5K compression is set to 21/60000 volumetric compression work rate of air volumetric compression work rate, and the streamlined theoretical combustion chamber 4Y in FIG. Corresponding to large vessels, small vessels, high-speed vessels and ultra-high-speed vessels that inject gas suction nozzle 6Y and suck air and propel water, increase the combustion amount by adding jet combustion to rocket combustion, oxygen combined water Injecting unit 88K super high pressure mass combustion 100 times output target, aiming at 10 times speed injection promotion of existing ship, same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate 10 times target existing ship oxygen combined water Various energy storage cycle coalescence engines and coalescence methods are used for the injection unit 88K.

FIG. 11 The oxygen coalescence water injection unit 88K driven by the theoretical combustion chamber 4Y of the oxygen coalescence injection ship 39J will be described. Horizontal full-blade water gravity turbine 8R Fuel cost 0 Electricity + liquid air cold heat + Receives liquid oxygen 5K from the superheated steam temperature supply facility 3D, selectively receives electricity + superheated steam, moves the theoretical combustion chamber 4Y to the oxygen combined water injection unit 88K as illustrated in FIG. 6, and the leading theoretical combustion chamber 4Y combustion gas An intake air passage 5b is provided around the injection nozzle 6Y, and a plurality of streamlined theoretical combustion chambers 4Y for adding jet combustion are selected according to the application, and the volumetric compression work of 21/60000 volumetric compression work with liquid oxygen 5K compression. The streamlined theoretical combustion chamber 4Y shown in FIG. 6 can be used by selecting an appropriate number according to the application, and can be used for large ships, small ships, high-speed ships, and ultra-high speed ships. Increase the amount of combustion added combustion, aim for oxygen combined water injection unit 88K ultra high pressure mass combustion 100 times output, and aim for 10 times speed injection propulsion of existing ships, same speed CO2 exhaust 1/10 fuel cost 1/10 operation Profit rate 10 times that of existing ships, oxygen coalescence water injection unit 88K, various energy storage cycle coalescence engine and coalescence method.

FIG. 12 illustrates the driving of the oxygen coalesced air injection unit 88A driven by the theoretical combustion chamber 4Y of the oxygen coalesced jet plane 39L. The horizontal full-blade water gravity turbine 8R has a fuel cost of 0 power generation. Receives liquid oxygen 5K from the superheated steam temperature / heat supply facility 3D and selectively receives the superheated steam + the superheated steam, moves the theoretical combustion chamber 4Y to the oxygen combined air injection unit 88A as illustrated in FIG. 7, and the leading theoretical combustion chamber 4Y combustion gas An intake air passage 5b is provided around the injection nozzle 6Y, and a plurality of streamlined theoretical combustion chambers 4Y for adding jet combustion are selected according to the application, and the volumetric compression work of 21/60000 volumetric compression work with liquid oxygen 5K compression. The streamlined theoretical combustion chamber 4Y of FIG. 7 is selected and used in an appropriate number according to the application, and the combustion gas injection nozzle 6Y is injected and air suction injection jet combustion injection is performed in the atmosphere. Proceed and make various planes that return to space by rocket combustion at the time of space ascent, aim for oxygen combined air injection unit 88K super high pressure mass combustion 100 times output, and make the earth on the first day of space use near the fuel cost 0 16-round trips anywhere on the earth, allowing for a day trip anywhere in the atmosphere, CO2 exhaust 1/10 fuel cost 1/10 operating profit rate 10 times that of existing aircraft Use a storage cycle coalescence engine and coalescence method.

FIG. 13 Driving the propeller 7A of the oxygen combined propeller plane 39M by the theoretical combustion chamber 4Y theoretical expansion engine 3P in FIG. 5 will be described. Horizontal full-blade water gravity turbine 8R Fuel cost 0 power generation Electricity + liquid air of extremely cheap electricity production Receiving liquid oxygen 5K from cold / superheated steam temperature supply facility 3D, selectively receiving electricity + superheated steam, compression 50-200 MPa, etc., opening liquid oxygen control valve 5T + liquid fuel control valve 1K + water control valve 5Q Then, heat up to the optimum temperature on the inner wall of the theoretical combustion chamber 4Y, etc., and open the superheated steam control valve 25 + oxygen control valve 24D + fuel control valve 25b, for example, heat the outer peripheral high-pressure high-temperature superheated steam 50 by combustion at 3000 ° C. or more near multiple oxygen acetylene burners. Then, a part of the superheated steam 50 is aimed to increase the combustion by suction pyrolysis electrolysis oxygen hydrogen hydrogen near the center, and the theoretical combustion chamber 4Y is heated by the superheated steam 50. Liquid oxygen 5K on the wall + liquid fuel 1c + water 52a is heated to produce superheated steam 50, fuel, oxygen, inner wall protection combustion or ultrahigh pressure / high temperature combustion at the optimum temperature, and high pressure / high temperature combustion gas control valve 5a is opened. Then, the propeller 7A drive and the rotor blade 7B drive by the horizontal axis 1h, the same speed CO2 exhaust in the atmosphere 1/10 fuel cost 1/10 operating profit rate 10 times that of the existing airplane, propeller airplane etc. A combined propeller-injection airplane 39N is used.

Compared to the existing pumped storage power generation, the horizontal full-blade hydrogravity turbine 8R power generation aiming at a resource price of 0 fuel cost of 0 power generation less than 1/2 of nuclear power generation is explained. Water jet speed Mach 3 of water jet processing machine is added, work rate is proportional to speed + proportional to height + 10 times speed 1/10 mass vertical water drive + all blade horizontal axis 1h counter reversal drive, in vacuum Horizontal type full-blade hydrogravity turbine with maximum power of 9.8m / s, power generation of 100 units vertically with the world's highest building height of 828m, and 100 times the same amount of water as existing pumped power generation 8R power generation may lead to extremely cheap power generation.

In the process of comparing the horizontal full-blade water gravity turbine 8R power generation with the existing thermal power nuclear steam turbine power generation, aiming to reduce the resource price 0 fuel cost 0 power generation to less than 1/2 of the nuclear power generation, according to Boyle's law Steam of 1,700 times the volume of water at 760 mmHg becomes 43,000 times the volume of water at an exhaust temperature of 29 ° C. and a vacuum pressure of 30 mmHg, and assuming that the existing steam turbine final blade group steam velocity is the sonic velocity, the inlet high pressure blade group steam Since the speed is less than 1 / 100th of the speed of sound and the work rate is the lowest, the comparison will be made with the last blade group having the highest work rate. When the water drive volume is 1 / 433,000 volume 29 ° C water drive of the steam 29 ° C volume, the same amount of power is generated by driving the cylindrical turbine blade group 8A, and 100 units of 200 times the amount of generated power are connected by 1/215 volume water drive. If it is calculated by elementary school science, such as a power generation amount of 20000 times, there is a possibility that extremely low-priced power generation becomes an astronomical large power generation amount.

Horizontal type full-blade water gravity turbine 8R power generation Extremely low-cost power generation, as an electric product prime, it receives superheated steam from electricity + liquid air cold heat + superheated steam temperature supply facility 3D to methane hydrate under the seabed or permafrost Injecting enclosures provide methane recovery, conversion to pasture grazing in permafrost areas, superheated steam injection even in oil sands, oil shale, and old oil extraction areas, and gasification recovery liquefaction and preservation in food enclosures. There is a possibility of receiving cheap steam for mass production of cheap food products, etc., and using it for agriculture, industry, industry, mining, etc.

Horizontal full-blade water gravity turbine 8R power generation Extremely inexpensive power generation, as an electric product prime, electric + liquid air cold heat + superheated steam temperature supply equipment 3D receives liquid oxygen 5K, and is driven by liquid oxygen With an airplane or the like, liquid oxygen 5K is liquid-compressed to obtain 21/60000 volumetric compression work rate of the air volumetric compression work rate, and the theoretical expansion engine 3P, the oxygen combined water injection unit 88K, and the oxygen combined air injection unit 88A are driven. In the case of automobiles, CO2 emissions and fuel costs may approach 1/10. Ships may approach 10 times the speed with the same fuel cost. There is a possibility that it will become a major revolution in the use of cold energy, such as making day trips anywhere on the earth as a prime.

0: Various energy storage cycle coalesced engine (various heat energy is compressed and recovered by heat pump as air temperature and divided into liquid air cold heat + superheated steam heat) Gravity energy rises storage spray accelerates gravitational acceleration in vacuum 0: Various energy storage cycle coalescing engine and coalescence method (various heat energy is heated by solar heat or geothermal heat, etc., and is recovered by compressing heat with a heat pump as liquid temperature, liquid air cooling + Divided and stored in superheated steam temperature ・ Used with a heat retaining device when using liquid metal under 500 ℃ ・ Shock energy is used to extend the working time by providing silicon blade coating or fluorine resin coating on turbine blades and small metal balls・ Gravity energy is increased by a lifting device Preservation of jets Accelerating gravitational acceleration in vacuum and using various energy combinations Engine and various energy merging means) 1: generator, 1A: storage battery, 1B: pressure engine (oxygen pressure gear engine, oxygen pressure reciprocating engine, water pressure gear engine, water pressure reciprocating engine, etc.) 1C: alcohol, 1D: fuel injection pump, 1F: condensate pump, 1G: 1 to multi-stage heat pump (heat pump with heat energy as air temperature (various air compression) ) Multiple times compression 2C 2X2Y2Z, 2 times 2X2Y2Z, divided and stored multiple times with heat recovery hot / cold 50 + cold 28a) 1K: Liquid fuel control valve, 1L: Water control valve, 1Y: Multistage combustion chamber (compresses liquid oxygen and liquid nitrogen separately) 50 to 200 MPa Combustion gas and nitrogen gas are produced separately, and 1Y is subjected to a plurality of times of steam heating inside and outside the combustion gas injection fuel injection combustion to inject or exhaust) 1b: Fuel (liquid fuel 1b: Fuel (liquid fuel + liquefiable gas fuel) 1b: Fuel pipe (provided so that the fuel injection temperature becomes the optimum temperature) 1c: Liquid fuel, 1d: Mercury, 1g: Gravity acceleration unit, 1h: Horizontal axis (axis that alternates the rotation direction of the outer shaft device and the inner shaft device) 1J: Fuel control valve, 1K: Liquid fuel control valve, 2: Solar heater (collects sunlight in a straight line with a long lens) 2a: Acceleration of natural phenomenon (uses enormous amount of microorganisms that approach zero when overnight leftover food changes in the air move to a nearby river to increase human food) 2a : Natural phenomenon acceleration (In the power generation, cold water 28a is mixed with seawater. Natural phenomenon acceleration seawater is supplied to the seabed. Nutrients such as nitrogen, oxygen and CO2 are supplied. Microorganisms increase to increase foods such as fish and kombu.) 2a: Speeding up natural phenomena (on ships Supplying nutrients such as nitrogen, oxygen, and CO2 into the sea Aiming at tens of thousands of times the digestive ability of microorganisms in the forest, increasing phytoplankton, seaweed, etc. to increase human food such as fish and kombu through food chain etc.) 2b: Low water resistance (Air + combustion gas + superheated steam is jetted to the bottom of the ship at a high speed to minimize water resistance) 2c: Heat insulating material, 2d: Long lens (convex lens cross-section is linearly extended rectangle, multiple lenses are used and focal length is the shortest lens width) 2e: water surface, 2g: specific material acceleration direction, 2A: heat-resistant material, 2B: heat-absorbing material, 2C: 1 to multi-stage compression heat recovery device (heat energy is air temperature and compressed multiple times with heat pump 2C 2E2Y2Z and other heat exchangers are used for heat recovery multiple times, and the rest is divided and stored in hot 50 + liquid cold 28a. 2E: Specific material (including alloys, platinum balls, gold balls, tungsten alloy powder sintered balls, silver balls, Copper ball Substances with large specific gravity such as tin spheres, lead spheres, zinc spheres, aluminum spheres, indium, cadmium, gallium, thallium, and bismuth) 2E: Specific critical substances (The manufacturing method reduces the impact energy as the diameter decreases. 2E: Specific critical material (coated platinum alloy balls, coated gold alloy balls, coated tungsten alloy powder sintered balls, coated silver with silicon resin coating or silicon resin coating) Alloy balls / Coated bismuth alloy balls / Coated copper alloy balls / Coated tin alloy balls / Coated lead alloy balls / Coated zinc alloy balls / Coated aluminum alloy balls) 2F: Specific critical material elevating device (gravity energy increased storage) 2H: Cold heat Sea water mixer (mixing cold water into sea water, a device that cools and condenses superheated steam vaporization heat in the process of speeding up natural phenomena) 2X: Air heat exchanger (air is compressed with a heat pump to a high temperature) 2Y: Compressed air heat exchanger (produces cold air and superheated steam with hot air or combustion gas) 2Z: Specific material heat exchanger (500 degrees or less) 3a: Water repellent plating, 3A: Water repellent coating, 3B: Water pressure reciprocating engine (Multistage oxygen pressure reciprocating engine heats water and water vapor in multiple stages to drive the multistage water pressure reciprocating engine) ) 3D: Electricity + liquid air cooling + superheated steam temperature supply equipment (cooling + heat production by gravity power generation and supplying liquid oxygen and liquid nitrogen Driving cars, ships and airplanes and supplying with superheated steam Methane injected into methane hydrate 3E: Specific critical substances (specific critical substances that are liquid at room temperature, such as mercury and water) 3E: Specific critical substances (low-melting-point, low-melting-point liquid, stable high-temperature liquid alloys) 3F: Oxygen pressure reciprocating engine (liquid oxygen, liquid nitrogen, and fuel are injected and burned into 50 to 200 MPa combustion gas, and fuel injection multistage combustion is driven during expansion to drive the multistage oxygen pressure reciprocating engine) 3G: Theoretical combustion gear engine ( 3H: Reciprocating piston, 3J: Theoretical combustion reciprocating engine (compressing and heating liquid oxygen + liquid fuel + water for injection combustion) 3K: External gear 3L: Multistage combustion chamber, 3M: Steam pressure reciprocating engine (Multistage oxygen pressure reciprocating engine heats water and steam in multiple stages to drive the multistage steam pressure reciprocating engine) 3N: Steam pressure gear engine (Multistage oxygen pressure gear engine 3P: Theoretical expansion engine (Boil's law The volume of gas is inversely proportional to pressure, the best engine) 3R: Theoretical gas -Bin (Theoretical best gas turbine whose gas volume is inversely proportional to pressure) 3S: Theoretical steam turbine (Theoretical best steam turbine whose gas volume is inversely proportional to pressure) 3T: Theoretical gas compressor (Gas volume is inversely proportional to pressure Corresponding theoretical best gas compressor) 3V: Pump engine (uses existing pumps in engine) 3X: Compressor engine (uses existing compressors in engine) 3Y: Counter-rotating engine (gas volume is inversely proportional to pressure) 3Z: Oxygen pressure gear engine (Liquid oxygen, liquid nitrogen, and fuel injection combustion to 50-200MPa combustion gas, water and steam on the inner and outer circumferences are burned and heated in multiple stages, and the multistage water pressure gear engine is linked) 3a: water-repellent plating, 3b: water-repellent coating, 4C: counter-synchronous gear, 4D: series co-rotating gear, 4F: combustion gas reciprocating engine, 4H: heat absorption tube (long lens 2) d) Collects sunlight in a heat absorption tube in a straight line and heats the tube air temperature to the maximum to increase the outside air temperature. 4J: Battery drive wheel, 4K: Theoretical expansion engine vehicle, 4W: Theoretical compression chamber, 4Y: Theoretical combustion chamber (combustion chamber for high-temperature pyrolysis electrolysis combustion of water by steam in steam) 0Z: Combustion gas gear engine, 4X: Turbine blade cross section (increase cross-sectional area and increase surface area) 4a: Liquid fuel pump, 4b: Liquid oxygen pump, 4c: Water pump, 4d: Gear device, 4e: Roller, 4f: Rotation support, 5a: High-pressure and high-temperature combustion gas control valve, 5A: Supply valve, 5B: Cooling fin, 5C: Exhaust chamber 5D: Exhaust valve 5E: Supply chamber 5F: Oxygen heating chamber 5G: Steam heating chamber, 5H: Water heating chamber, 5K: Liquid oxygen, 5K: Liquid oxygen chamber, 5L: Liquid nitrogen, 5L: Liquid nitrogen Chamber, 5M: High pressure Hot combustion gas, 5M: high pressure high temperature combustion gas chamber, 5N: high pressure high temperature steam chamber, 5N: high pressure high temperature steam, 5P: steam control valve, 5Q: water control valve, 5T: liquid oxygen control valve, 6: final compression blade, 6A: Superheated steam injection nozzle, 6B: Compressed air injection nozzle, 6E: Specific critical substance injection nozzle, 6W: Specific critical substance accelerator (liquid specific critical substance 3E pressure and specific gravity difference using specific gravity difference 3E and 2E mixed injection 6X: Fuel injection nozzle, 6X: Afterburner (combustion combined with the fuel injection cold heat 28a combustion flow 6Y in the suction air flow and rising in space due to a large increase in fuel combustion amount) 6Y: Combustion gas injection nozzle (cool heat 28a combustion flow) 6Z: Steam injection nozzle, 7A: Propeller, 7B: Rotary blade, 7C: Screw, 8c: Turbine blade (A straight and long turbine blade is provided on the outer surface of the cylinder to fully automatically process the inner and outer circumferences. 8d: Upper expansion blade group, 8e: Lower expansion blade group, 8f: Assembly turbine blade group, 8g: Upper compression blade group, 8h: Lower compression blade group, 8j: Assembly compression blade group, 8A: Cylindrical turbine blade group (Enables fully automatic machining and precision assembly as a horizontal cylindrical turbine blade group) 8R: Horizontal full-blade turbine (opposite full-blade propeller turbine series full-blade propeller turbine turbine biting full-blade propeller turbine) 8R : Horizontal type full-blade turbine (Aiming at full automatic machining and weight reduction of inner and outer circumferences by providing straight and long turbine blades on the outer surface of the cylinder) 8R: Horizontal type full-blade hydrogravity turbine (existing steam turbine is dammed with stationary blades) (9) Wear-resistant annular assembly (8c) Since the output approaches 0, all moving blades are essential, and the work rate is as small as 1 / 360,000 of platinum spheres. Cemented carbide only in specific material flow paths containing 9A: Cylindrical ring assembly (6 wear-resistant cylindrical ring assembly blade groups are used to simplify the structure, reduce the number of parts, facilitate fully automatic processing, facilitate assembly, and reduce weight easily. 9A: Cylindrical annular assembly (inlet fixed outer blade 60E + outer annular blade 60G + outlet fixed outer blade 60J is fitted to form a cylindrical outer blade group 60D, inlet fixed inner blade 60F + inner annular blade 60H + outlet fixed inner blade) 10: Hull, 10A: cabin, 10b: cockpit, 10c: control room, 10d: cabin, 10e: cargo compartment, 16: horizontal shaft plate (precision) 16A: Horizontal axis, 11D: Cooling chamber dedicated to gas, 21: Solar heater (mainly used with the intake air path provided in the heat absorption pipe 4H) 24: Combustion gas control valve, 24A: compressed air 25a: Fuel control valve, 25a: Fuel control valve, 28a: Air, 28a: Cold heat (The air 28a is compressed with a heat pump, and the compressed air calorie contains 50 warm heat + liquid oxygen and liquid nitrogen. 28b: Compressed air calorie, 28A: Intake air path, 28B: Air path inlet, 38: Rotating guide, 38a: Flight trunk, 38b: Flight wing, 38c: Flight tail, 38d: Vertical Wings, 38e: Wing leading edge, 38g: Water wing, 38h: Levitation boat, 38B: Air suction jet ship (with 79S79T79Y79Z) 38C: Water suction jet ship (with 79U79X) 39A: Solar thermal gravity plane, 39B: Solar thermal gravity rotation Airplane, 39C: Solar gravity helicopter, 39D: Screw ship, 39G: Solar gravity ship, 39H: Oxygen coal New ship, 39J: oxygen coalescence injection ship, 39K: oxygen coalescence screw injection ship, 39L: oxygen coalescence injection airplane, 39M: oxygen coalescence propeller airplane, 39N: oxygen coalescence propeller injection airplane, 39P: oxygen coalescence rotorcraft, 40A: Rudder, 49: Combustion gas, 50: Superheated steam, 50: Superheated steam chamber, 50: Warmth (compressed air 28a is compressed with a heat pump, and is divided and stored into superheated steam 50 heat of compressed air calorie + compressed air 28a cold) 50A: Water vapor, 51: Air extractor, 51: Combined extractor (extractor for joining) 51A: Air extraction chamber, 52a: Water, 52a: Deep ocean water, 52b: Hot water, 52d: Thermal (change from 50) 52e: Cold (changed from 28a) 55B: Transmission, 60A: Inner shaft device (equipment with turbine blades) 60B: Outer shaft device (tar 60C: Cylindrical inner moving blade group (Wear resistant cylindrical annular assembly fixed moving blade group including fully automatic machining easy assembly) 60D: Cylindrical outer moving blade group (Abrasion resistant cylindrical annular assembly fixed moving blade) 60E: Inlet fixed outer wing (inlet wing for annular assembly fixing outer rotor blade group) 60F: Inlet fixed inner wing (inlet wing for annular assembly fixing inner rotor group) 60G: Outer annular blade (intermediate blade for annular assembly of outer rotor blade group) 60H: Inner annular blade (intermediate blade for annular assembly of inner rotor blade group) 60J: Outlet fixed outer blade (outer rotor blade group is annularly assembled and fixed) 60K: Outlet fixed inner wing (exit wing for annular assembly fixing inner blade group) 76: Gear device (including magnetic friction power transmission device) 77B: Semi-cylindrical outer box, 77F: Injection unit outer box 77G: Cylindrical rotating part, 77a: Turbine outer box, 80: Bearing (including magnetic bearing + air bearing) 80a: Thrust bearing (including magnetic bearing + air bearing) 80A: Joint, 80B: Fastener, 80E: Liquid coalescence injection part (High pressure high temperature combustion gas 5M High pressure high temperature steam chamber 5N 80N: Liquid coalescence injection unit (high pressure high temperature combustion gas 5M high pressure high temperature steam) Receiving the chamber 5N and injecting and burning the fuel several times to 5M, heating and injecting 5N from the inner periphery and the inner and outer periphery multiple times, and also injecting and injecting the fuel into the air suction flow at several locations, 80V: Liquid combined injection section (High pressure high temperature combustion gas 5M High pressure high temperature steam chamber 5N is received and fuel injected and burned to 5M multiple times, and 5N is heated and injected multiple times from the inner periphery, outer periphery and inner periphery outer periphery , Fuel injection at multiple locations 80W: Liquid coalescence injection unit (receives high pressure / high temperature combustion gas 5M high pressure / high temperature steam chamber 5N and injects and burns fuel 5M multiple times to 5M for inner circumference, outer circumference and inner circumference outer circumference 80S: Liquid air suction water jet (receives high-pressure high-temperature combustion gas 5M high-pressure high-temperature steam chamber 5N, and fuel-injects and combusts multiple times 5M to 5N as the inner periphery) 80T: Liquid air suction water jet (receives high pressure high temperature combustion gas 5M, high pressure high temperature steam chamber 5N and multiple to 5M) 5N is heated and injected multiple times from the inner circumference, outer circumference, and inner circumference outer circumference, and fuel injection combustion injection is also carried out at a plurality of locations of the air suction flow, and air suction injection is performed to suck and inject water. 80U Liquid water suction water jet (high pressure high temperature combustion gas 5M receiving high pressure high temperature steam chamber 5N, fuel injection combustion in 5M multiple times, 5N is heated multiple times from the inner periphery, outer periphery and inner periphery outer periphery to inject water, 80X: Liquid water suction water jet (high pressure high temperature combustion gas 5M receiving high pressure high temperature steam chamber 5N, fuel injection combustion into 5M multiple times, 5N is heated multiple times from the inner periphery and inner periphery outer periphery and injected 80Y: Liquid air suction water jet (receives high pressure high temperature combustion gas 5M, high pressure high temperature steam chamber 5N, and injects and burns fuel 5M multiple times, 5N multiple times from the inner periphery and inner periphery outer periphery 80Z: Liquid air suction water jet (high pressure high temperature combustion gas 5M received high pressure high temperature steam chamber 5N and fueled to 5M multiple times) (2) Heating and injecting 5N from the inner periphery and inner and outer periphery a plurality of times and spraying, and fuel injection combustion injection to a plurality of locations of air suction flow, air suction injection and water suction injection) 84: Two Heavy reversal magnetic friction device (equipment for rotating the inner moving blade group and the outer moving blade group having a fixed portion at substantially the same speed and opposite rotation) 84Y: Counter rotating gear device (same as existing technology) 85: Counter rotating magnetic device (Magnet-utilized gear height is slight to non-contact and reciprocally rotated with a horizontal shaft 1h gear) 85Y: Counter-rotating gear device (reciprocally reversed with an existing horizontal shaft 1h gear) 88A: Oxygen combined air injection unit ( Rocket combustion + jet combustion + steam injection and combined injection) 88K: oxygen combined water injection unit (rocket combustion + jet combustion + steam injection and combined injection) 95a: combustion gas reservoir, 95b: compressed air reservoir, 95c: superheated steam Tame 103: Heat recovery unit,

Claims (371)

  A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescing engine and coalescence method for generating 1-20 sets of turbine (8R).   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 21 to 40 sets of power.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 41-60 sets of power generation.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 61-80 sets of power.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 81-100 power sets.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 101-120 power generation.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 121-140 sets of power generation.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engines and coalescence methods for generating turbines (8R) 141 to 160 sets.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engines and coalescence methods for generating turbine (8R) 161-180 power sets.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 181 to 200 sets of power.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating 1 to 20 sets of horizontal full-blade water gravity turbines (8R) driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 21-40 power generation driven by injection at .about.3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 41-60 power generation driven by injection at .about.3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 61-80 power generation driven by injection at .about.3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating 100 to 100 sets of horizontal full blade hydrogravity turbine (8R) driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade hydrogravity turbine (8R) 101-120 generating electric power at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 121-140 set power generation driven by ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141 to 160 sets of electric power driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 161-180 sets of power driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 181 to 200 sets that are driven by injection at .about.3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating 1 to 20 sets of horizontal all-blade water gravity turbines (8R) driven by injection as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 21-40 power generation driven by injection as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 41-60 power generation driven by injection as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 61-80 power generation driven by injection as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating 100-100 sets of horizontal all-blade water gravity turbine (8R) driven by injection as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 101-120 generating electric power as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescing engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 121-140 power generation set by injection driving as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 141 to 160 sets of electric power to be injected as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 161-180 power generation driven by injection as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 181 to 200 sets of electric power to be injected as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating 1 to 20 sets of diameter horizontal full blade hydrogravity turbine (8R).   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescing engines and coalescence methods for generating 21-40 sets of horizontal full-blade water gravity turbines (8R) with a diameter.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engines and coalescence methods for generating 41 to 60 sets of horizontal all-blade water gravity turbines (8R) having a diameter.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engines and coalescence methods for generating 61 to 80 sets of horizontal all blade hydrogravity turbines (8R) of diameter.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 81-100 power generation of diameter.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 101-120 power generation.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 121-140 sets of power generation.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141-160 sets of power generation.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 161-180 sets of diameters.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 181 to 200 sets of power generation.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating 1 to 20 sets of horizontal full-blade hydrogravity turbine (8R) with the maximum inner diameter capable of cutting the entire inner diameter, driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a full-width horizontal full-blade hydrogravity turbine (8R) 21 to 40 sets of electric power that can be cut all over the inner surface driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating 41-60 sets of horizontal full-blade hydrogravity turbines (8R) of the maximum diameter, which are capable of cutting the entire inner diameter, driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescing engines and coalescence methods for generating a set of 80 to 80 sets of full-width horizontal moving blade hydrogravity turbines (8R) with an inner diameter that can be driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescing engines and coalescence methods for generating a power generation of a horizontal full-blade hydrogravity turbine (8R) 81-100 with the maximum inner diameter capable of cutting the inside diameter driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade hydrogravity turbine (8R) 101-120 with the maximum diameter, capable of cutting the entire inner diameter, driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a full-width horizontal full-blade hydrogravity turbine (8R) 121-140 set with the maximum inner diameter capable of cutting the inside diameter driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141-160 set of the maximum diameter, which can be cut all over the inside diameter driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water-gravity turbine (8R) 161-180 sets of the maximum diameter, which are capable of cutting the entire inner diameter, driven by injection at -3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a full-width horizontal full-blade hydrogravity turbine (8R) 181 to 200 sets of electric power that can be cut through the inner diameter driven by injection at ~ 3.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a set of 1 to 20 sets of horizontal full blade hydrogravity turbines (8R) of the maximum diameter that can be cut by the entire inner diameter that can be driven by injection.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various types of energy storage cycle coalescence engine and coalescence method for generating a horizontal full-blade hydrogravity turbine (8R) 21 to 40 sets of the maximum-diameter experimentally capable of cutting the entire inner diameter that is driven by injection.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating 41-60 sets of full-width horizontal moving blade water gravity turbines (8R) having the maximum inner diameter capable of cutting the inside diameter by injection driving as described above.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a set of power generators of the horizontal full-blade hydrogravity turbine (8R) 61-80 with the maximum inner diameter capable of cutting the entire inner diameter, which is driven by injection.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a set of horizontal full-wing blade water gravity turbines (8R) 81 to 100 with the maximum inner diameter capable of cutting the entire inner diameter that are driven by injection.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various types of energy storage cycle coalescence engine and coalescence method for generating a horizontal full-blade hydrogravity turbine (8R) 101-120 with the maximum test diameter capable of cutting the entire inner diameter, which is driven by injection.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescing engines and coalescence methods for generating a horizontal all-blade hydrogravity turbine (8R) 121 to 140 sets of the maximum diameter that can be cut by the entire inner diameter that can be driven by injection.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 141 to 160 sets of the maximum diameter, which can be cut all over the inner diameter, which is driven by injection.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a set of horizontal full-blade hydrogravity turbines (8R) 161-180 having the maximum diameter, which are capable of cutting the entire inner diameter, which are driven by injection.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various types of energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade hydrogravity turbine (8R) 181 to 200 sets of the maximum-diameter test capable of cutting the entire inner diameter that is driven by injection.   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescing engine and coalescence method for generating 1-20 sets of horizontal full blade water gravity turbine (8R).   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 21-40 sets of power generation.   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal full blade water gravity turbine (8R) 41-60 sets of power generation.   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 61-80 power generation.   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 81-100 power generation.   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating 100 to 120 sets of horizontal full-blade water gravity turbine (8R).   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescing engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 121-140 power generation.   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141-160 power generation.   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 161-180 power generation.   A pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 181 to 200 power sets.   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating 1 to 20 sets of all-blade water gravity turbine (8R).   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating 21 to 40 sets of all-blade water gravity turbine (8R).   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescing engines and coalescence methods for generating 41 to 60 sets of all blade hydrogravity turbines (8R).   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescing engine and coalescence method for generating all-blade water gravity turbine (8R) 61-80 sets of power generation.   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescing engine and coalescence method for generating all-blade water gravity turbine (8R) 81-100 power generation.   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating 100-120 sets of all-blade water gravity turbine (8R).   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating all blades of water gravity turbine (8R) 121-140 power generation.   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating all blades of water gravity turbine (8R) 141-160 power generation.   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating all-blade water gravity turbine (8R) 161-180 power generation.   Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating all blades of water gravity turbine (8R) 181 to 200 sets.   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating 1 to 20 sets of horizontal all-blade water gravity turbine (8R).   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 21-40 sets of power generation.   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade water gravity turbine (8R) 41-60 power generation.   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 61-80 sets of power generation.   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade water gravity turbine (8R) 81-100 power generation.   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engines and coalescence methods for generating 100 to 120 sets of horizontal full-blade water gravity turbines (8R).   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade water gravity turbine (8R) 121-140 power generation.   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141-160 power generation.   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade water gravity turbine (8R) 161-180 power generation.   A set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade water gravity turbine (8R) 181 to 200 sets of power generation.   A solar heater (21) is provided with buoyancy on the surface of the water, and solar heated air is a vertical all-blade hydrogravity turbine (8R), which is an extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G ), And multiple energy storage cycle coalescing engines that make electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) by recovering heat with 1 to multistage compression heat recovery device (2C) for each compression. And coalescing method.   A solar heater (21) is provided with buoyancy on the water surface, and a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west is provided. The bladed water gravity turbine (8R) is an extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G) compressed by suction multiple times, and each compression is heat recovered by 1 to multi-stage compression heat recovery unit (2C) , Various energy storage cycle coalescence engine and coalescence method to make electricity + liquid air cold heat + superheated steam heat supply equipment (3D).   The solar heater (21) is provided with buoyancy on the water surface, and includes a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west, and includes a gear device (4d) and a roller (4e). ) As a cylindrical rotating part (77G), and a device that controls rotation by maintaining the vertical angle at right angles in the vertical direction, and solar heating air is a vertical all-blade hydrogravity turbine (8R). Various types of compression by suction multiple times with a stage heat pump (1G) and heat recovery with 1 to multiple stage compression heat recovery units (2C) for each compression to make electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) Energy conservation cycle coalescence engine and coalescence method.   The solar heater (21) is provided with buoyancy on the water surface, and includes a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west, and includes a gear device (4d) and a roller (4e). ) As a cylindrical rotating part (77G) as a device for controlling the rotation of sunlight at a right angle in the vertical direction, and as a device for controlling rotation at a right angle in the east-west direction by using buoyancy. The maximum temperature of the air (28a), the vertical all blade hydrogravity turbine (8R), extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G), compressed multiple times, 1 to multiple for each compression Various energy storage cycle coalescence engines and coalescence methods for recovering heat with a stage compression heat recovery device (2C) to make electricity + liquid air cold heat + superheated steam temperature supply equipment (3D).   The solar heater (21) is provided with buoyancy on the water surface, and includes a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west, and includes a gear device (4d) and a roller (4e). ) As a cylindrical rotating part (77G) as a device for controlling the rotation of sunlight at a right angle in the vertical direction, and as a device for controlling rotation at a right angle in the east-west direction by using buoyancy. The maximum temperature of the air (28a), the external air (28a) is also heated, each air passage (28A) as a high-temperature selective intake, the vertical all-blade water gravity turbine (8R) is extremely inexpensive power generation electric drive, Compressed multiple times with a multi-stage heat pump (1G), and recovers heat with a multi-stage compression heat recovery unit (2C) for each compression, resulting in electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) Various energy storage cycle unit And coalescence method.   A solar heater (21) is provided with a circular railroad on a flat ground, and solar heating air is supplied to a vertical-type all-blade water gravity turbine (8R), which is an extremely inexpensive power generation electric drive 1 to multi-stage heat pump ( Combined with various energy storage cycles, compressed by suction multiple times in 1G) and recovered in heat by 1 to multiple-stage compression heat recovery unit (2C) for each compression to make electricity + liquid air cold heat + superheated steam temperature supply facility (3D) Organization and coalescence method.   A solar heater (21) is provided on a flat ground with a circular railroad, and a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west is provided. Rotating blade water gravity turbine (8R) Extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G) compresses suction multiple times, and each compression recovers heat with 1 to multi-stage compression heat recovery unit (2C) Various energy storage cycle coalescence engines and coalescence methods that make electricity + liquid air cold heat + superheated steam temperature supply equipment (3D).   The solar heater (21) is provided with a circular railroad on a flat ground, and includes a rotation support portion (4f) for controlling rotation of the sunlight at a right angle from east to west, and a gear device (4d) and a roller ( 4e), as a cylindrical rotating part (77G), it is a device that controls the rotation of sunlight in the vertical direction at right angles. Compressed multiple times with a multi-stage heat pump (1G), and recovers heat with a multi-stage compression heat recovery unit (2C) for each compression, resulting in electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods.   The solar heater (21) is provided with a circular railroad on a flat ground, and includes a rotation support portion (4f) for controlling rotation of the sunlight at a right angle from east to west, and a gear device (4d) and a roller ( 4e) is used as a cylindrical rotating part (77G) as a device for controlling and rotating sunlight at a right angle in the vertical direction, and as a device for controlling rotation at a right angle in the east and west direction by using a circular railway, sunlight is linearly centered on the heat absorption tube (4H). Irradiated internal air (28a) temperature is maximized, vertical full-blade hydrogravity turbine (8R) is extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G), compressed multiple times, 1 for each compression ~ Various energy storage cycle coalescence engine and coalescence method by recovering heat with multistage compression heat recovery device (2C) to make electricity + liquid air cold heat + superheated steam temperature supply facility (3D).   The solar heater (21) is provided with a circular railroad on a flat ground, and includes a rotation support portion (4f) for controlling rotation of the sunlight at a right angle from east to west, and a gear device (4d) and a roller ( 4e) is used as a cylindrical rotating part (77G) as a device for controlling and rotating sunlight at a right angle in the vertical direction, and as a device for controlling rotation at a right angle in the east and west direction by using a circular railway, sunlight is linearly centered on the heat absorption tube (4H). Irradiation internal air (28a) temperature is maximized, external air (28a) is also heated for each air passage (28A) as a high temperature selective suction, vertical all blade hydrogravity turbine (8R) extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G), suction multiple times compression, and heat is recovered with 1 to multi-stage compression heat recovery unit (2C) for each compression, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) Various energy conservation cycle Union organizations and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) Receiving power from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely inexpensive power generation electricity production, recovering superheated steam heat injection methane into methane hydrate on the sea floor Various energy storage cycle coalescence engine and coalescence method.   Horizontal type full-blade water gravity turbine (8R) Received from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely inexpensive power generation electricity production, liquid superheated steam temperature heat injection methane into the methane hydrate on the sea floor Various energy storage cycle coalescence engines and coalescence methods for recovery with nitrogen (5L) cooled liquid methane.   Horizontal full-blade water gravity turbine (8R), an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply facility (3D), and superheated steam temperature heat injection methane into methane hydrate under permafrost Various energy storage cycle coalescence engine and coalescence method for recovering   Horizontal type full-blade water gravity turbine (8R) Received from electricity, liquid air cold heat + superheated steam temperature supply equipment (3D), extremely inexpensive power generation electricity production, superheated steam temperature heat injection methane into methane hydrate under permafrost land Various energy storage cycle coalescing engines and coalescence methods for recovering methane with liquid nitrogen (5L) cooled liquid methane.   Horizontal full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electricity generation, received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D), and superheated steam temperature heat injection enclosure to methane hydrate under permafrost land Various energy conservation cycle coalescence engines and coalescence methods that are provided for methane recovery and pasture grazing projects.   Horizontal type full-blade water gravity turbine (8R) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely inexpensive power generation electricity production, various recovered by installing superheated steam injection enclosure in oil sand zone Energy conservation cycle coalescence engine and coalescence method.   Horizontal type full-blade water gravity turbine (8R) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely cheap electricity generation electricity production, various types of recovered by installing superheated steam injection enclosure in oil shale area Energy conservation cycle coalescence engine and coalescence method.   Horizontal full-blade water gravity turbine (8R) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely inexpensive power generation electricity production, and recovered by installing a superheated steam injection enclosure in an old oil extraction zone Various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely low cost electricity production, food manufacturing industry etc. received superheated steam cheaply and cheap food Various energy conservation cycle coalescence engines and coalescence methods for mass production.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives cheap superheated steam from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), for agricultural, industrial and industrial use. Various energy conservation cycle coalescence engines and coalescence methods used for mining to make the best use of thermal energy.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) various energy storage cycle coalescence engine and coalescence method for driving automobile by driving theoretical expansion engine (3P) as ultra high pressure fuel combustion.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods that drive a theoretical expansion engine (3P) as an ultra-high pressure fuel combustion to drive an automobile.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) various energy storage cycle coalescence engine and coalescence method for driving automobile by driving theoretical expansion engine (3P) as ultra-high pressure fuel combustion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) Super high pressure fuel combustion theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) and storage battery drive wheel (4J) rotation theoretical expansion engine automobile (4K ) Various energy storage cycle coalescence engines and coalescence methods to be driven.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P) drive generator (1) Drive storage battery (1A) as ultra-high pressure fuel combustion and storage battery drive wheel (4J) Rotation theoretical expansion engine Automobile (4K) various energy storage cycle coalescence engine And coalescing method.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various types of energy storage for storing combustion battery (4Y) ultrahigh pressure fuel combustion in theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) and driving storage battery drive wheel (4J) rotation theoretical expansion engine automobile (4K) Cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Theoretical combustion chamber (4Y) to be 21/60000 Ultra high pressure fuel combustion Theoretical expansion engine (3P) drive generator (1) The drive battery (1A) is charged and the battery drive wheel (4J) rotation and normal wheel rotation are possible Various energy storage cycle coalescing engine and coalescence method for driving a theoretical expansion engine vehicle (4K).   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P) drive generator (1) Drives the storage battery (1A) as super high pressure fuel combustion and drives the storage battery drive wheel (4J) and the theoretical expansion engine car (4K) that can rotate the normal wheel Various energy storage cycle coalescence engine and coalescence method.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory The combustion chamber (4Y) Theoretical expansion engine vehicle capable of accumulating in the theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) as ultrahigh pressure fuel combustion and rotating the battery drive wheel (4J) and normal wheel rotation ( 4K) Various energy storage cycle coalescence engines and coalescence methods to be driven.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) various energy storage cycle coalescence engine and coalescence method for driving theoretical expansion engine (3P) and driving theoretical expansion engine automobile (4K) as ultra high pressure fuel combustion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) various energy storage cycle coalescence engine and coalescence method for driving a theoretical expansion engine (3P) and driving a screw (7C) rotating ship as ultra high pressure fuel combustion.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) and driving a screw (7C) rotating ship as ultra-high pressure fuel combustion.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) as a combustion chamber (4Y) ultrahigh pressure fuel combustion and driving a screw (7C) rotating ship.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engine and coalescence method for driving the theoretical expansion engine (3P) multiple times and screw (7C) multiple rotation ship as the theoretical combustion chamber (4Y) ultra high pressure fuel combustion to 21/60000.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescing engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and driving a screw (7C) a plurality of rotations as ultra-high pressure fuel combustion.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods in which a combustion chamber (4Y) ultra-high pressure fuel combustion is driven by a plurality of theoretical expansion engines (3P) and a screw (7C) is driven by a plurality of rotation ships.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical Combustion Chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) multiple drive and screw (7C) multi-rotation oxygen coalescence screw ship (39H) driven various energy storage cycle coalescence engine and coalescence method .   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods that drive multiple theoretical expansion engines (3P) and screw (7C) multi-rotation oxygen coalescence screw ship (39H) as ultra-high pressure fuel combustion.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and driving a screw (7C) multi-rotation oxygen coalescence screw ship (39H) as combustion chamber (4Y) ultra-high pressure fuel combustion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) various energy storage cycle coalescence engine and coalescence method for driving the theoretical expansion engine (3P) and driving the oxygen coalescence screw ship (39H) as ultra high pressure fuel combustion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) Super-high pressure fuel combustion Theoretical expansion engine (3P) drive and screw (7C) rotary oxygen coalescence water injection part (88K) Merge method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) as super-high pressure fuel combustion and driving a screw (7C) rotary oxygen coalescence water injection part (88K) injection propulsion ship.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) as a combustion chamber (4Y) ultrahigh pressure fuel combustion and driving a screw (7C) rotary oxygen coalescence water injection part (88K) injection propulsion ship.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) Ultra high pressure fuel combustion, theoretical expansion engine (3P) multiple drive, screw (7C) multi-rotation oxygen coalescence water injection part (88K) injection propulsion ship drive various energy conservation cycle coalescence Organization and coalescence method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods that drive multiple theoretical expansion engines (3P) as ultra-high pressure fuel combustion to drive a screw (7C) multi-rotation oxygen coalescence water injection unit (88K) injection propulsion ship.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a combustion chamber (4Y) ultra-high pressure fuel combustion by driving a plurality of theoretical expansion engines (3P) and driving a screw (7C) multi-rotation oxygen coalescence water injection part (88K) injection propulsion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) multiple drive and screw (7C) multi-rotation oxygen combined water injection part (88K) injection propulsion oxygen combined screw injection ship (39K) Various energy storage cycle coalescence engines and coalescence methods to be driven.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines that drive multiple theoretical expansion engines (3P) as ultra-high pressure fuel combustion to drive screws (7C) multi-rotation oxygen coalescence water injection part (88K) injection propulsion oxygen coalescence screw injection vessel (39K), and Merge method.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycles for driving the combustion chamber (4Y) ultra-high pressure fuel combustion with multiple theoretical expansion engines (3P) and driving with screw (7C) multi-turn oxygen combined water injection unit (88K) injection propulsion oxygen combined screw injection ship (39K) Merger engine and merger method.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) drive and oxygen coalescence water injection part (88K) Injection propulsion oxygen coalescence screw injection ship (39K) Organization and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Streamlined theoretical combustion chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion with multiple ultrahigh pressure fuel combustion injection propulsion Various energy storage cycle coalescence engines and coalescence methods for driving a ship.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion ship driven by multiple ultrahigh pressure fuel combustion injection propulsion and various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Oxygen coalescence water injection part (88K) injection propulsion ship driven by a theoretical combustion chamber (4Y) multiple ultrahigh pressure fuel combustion injection propulsion, and various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence water injection part (88K) injection propulsion ship with multiple ultrahigh pressure fuel combustion injection propulsion including a streamlined theoretical combustion chamber (4Y) air suction flow path to 21/60000.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion ship driven by multiple ultrahigh pressure fuel combustion injection propulsion including air suction passages Various energy storage cycle coalescence engines and coalescence methods for driving a ship.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engine and coalescence method for driving oxygen combined water injection part (88K) injection propulsion ship equipped with theoretical combustion chamber (4Y) air suction flow path and multiple super high pressure fuel combustion injection propulsion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Streamlined Theoretical Combustion Chamber (4Y) Oxygen Combined Water Injection Unit (88K) Injection Propulsion Oxygen Combined Injection Ship (39J) with Multiple Ultra High Pressure Fuel Combustion Injection Propulsion including Air Suction Channel Merger engine and merger method.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion oxygen coalescence injection ship (39J) driven by multiple ultrahigh pressure fuel combustion injection propulsion including air suction flow paths and various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engines and coalescence methods for driving oxygen coalescence water injection part (88K) injection propulsion oxygen coalescence injection ship (39J) with a plurality of super high pressure fuel combustion injection propulsion including a theoretical combustion chamber (4Y) air suction flow path.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods for driving 21/60000 streamlined theoretical combustion chambers (4Y) to drive a plurality of oxygen coalescence water injection sections (88K) injection propulsion oxygen coalescence injection ship (39J).   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods to make an oxygen coalescence air injection part (88A) injection propulsion airplane that is 21/60000 streamlined theoretical combustion chamber (4Y) multiple ultrahigh pressure fuel combustion injection propulsion.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for making an oxygen coalescence air injection part (88A) injection propulsion airplane that is propelled by multiple ultrahigh pressure fuel combustion injection.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engines and coalescence methods for a theoretical combustion chamber (4Y) oxygen coalescence air injection part (88A) injection propulsion airplane with multiple ultrahigh pressure fuel combustion injection propulsion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods for an oxygen coalesced air injection part (88A) injection propulsion airplane with multiple ultrahigh pressure fuel combustion injection propulsion including a streamlined theoretical combustion chamber (4Y) air suction flow path of 21/60000.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Oxygen coalesced air injection part (88A) including a plurality of ultra-high pressure fuel combustion injection propelled including air suction flow paths (88A) Various energy storage cycle coalescing engines and coalescence methods for making an injection propulsion airplane.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engines and coalescence methods for making an oxygen coalesced air injection part (88A) injection propulsion airplane that is equipped with a theoretical combustion chamber (4Y) air suction flow path and includes multiple ultrahigh pressure fuel combustion injection propulsion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Streamlined Theoretical Combustion Chamber (4Y) Oxygen Combined Air Injection Unit (88A) Injection Propulsion Oxygen Combined Injection Plane (39L) Driven by Plural Ultra High Pressure Fuel Combustion Injection Propulsion including Air Suction Channel Merger engine and merger method.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence air injection section (88A) injection propulsion oxygen coalescence injection plane (39L) including a plurality of ultrahigh pressure fuel combustion injection propulsion including air suction channels.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engines and coalescence methods for driving oxygen coalescence air injection part (88A) injection propulsion oxygen coalescence jet airplane (39L) with a theoretical combustion chamber (4Y) air suction flow path including multiple ultrahigh pressure fuel combustion injection propulsion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods for driving 21/60000 streamlined theoretical combustion chambers (4Y) to drive a plurality of oxygen coalescence air injection sections (88A) injection propulsion oxygen coalescence injection airplanes (39L).   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engine and coalescence method for driving the theoretical expansion engine (3P) and propeller (7A) rotating airplane as theoretical combustion chamber (4Y) ultra high pressure fuel combustion to 21/60000.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescing engines and coalescence methods for driving a theoretical expansion engine (3P) and propeller (7A) rotating airplane as ultra-high pressure fuel combustion.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method in which the combustion chamber (4Y) is driven by a theoretical expansion engine (3P) as an ultra-high pressure fuel combustion and is driven by a propeller (7A) rotating airplane.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods in which a theoretical combustion chamber (4Y) is driven to 21/60000, and a plurality of theoretical expansion engines (3P) are driven as a high pressure fuel combustion to drive a propeller (7A).   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescing engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and propellers (7A) for multiple revolution airplanes as ultrahigh pressure fuel combustion.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method in which combustion chamber (4Y) ultrahigh pressure fuel combustion is driven by multiple theoretical expansion engines (3P) and propeller (7A) multiple revolution airplanes.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical Combustion Chamber (4Y) Ultra High Pressure Fuel Combustion Theoretical Expansion Engine (3P) Multiple Drives Propeller (7A) Multi-Rotation Oxygen Combined Propeller Plane (39M) Various Energy Conservation Cycle Combined Engine and Combined Method .   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and propellers (7A) multi-rotation oxygen coalescence propeller airplanes (39M) as ultra-high pressure fuel combustion.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods in which a combustion chamber (4Y) ultrahigh pressure fuel combustion is driven by a plurality of theoretical expansion engines (3P) and a propeller (7A) multi-rotation oxygen coalescence propeller airplane (39M).   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engine and coalescence method for driving a theoretical expansion engine (3P) as a combustion chamber (4Y) ultrahigh pressure fuel combustion to 21/60000 and driving a propeller (7A) rotating oxygen coalescence propeller airplane (39M).   Horizontal full-blade hydrogravity turbine (R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low cost electric power production, and compresses the compressed volume of air Theoretical combustion chamber (4Y) to be 21/60000, a theoretical expansion engine (3P) driven rotor blade (7B) as an ultra-high pressure fuel combustion, and various energy storage cycle coalescence engines and coalescence methods for driving an airplane.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) A theoretical expansion engine (3P) driven rotor blade (7B) as an ultra-high pressure fuel combustion, and various energy storage cycle coalescing engines and coalescence methods for driving an airplane.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method in which the combustion chamber (4Y) ultra-high pressure fuel combustion rotates the theoretical expansion engine (3P) drive rotor blade (7B) to drive the airplane.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Theoretical combustion chamber (4Y) of 21/60000 Ultra high pressure fuel combustion Theoretical expansion engine (3P) Multiple drive rotor blades (7B) Various energy storage cycle coalescence engines and coalescence methods that drive the aircraft by multiple revolutions.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P), multiple drive rotor blades (7B), and various energy storage cycle coalescence engines and coalescence methods that drive the aircraft by multiple revolutions as ultra-high pressure fuel combustion.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) Various energy storage cycle coalescence engine and coalescence method for driving an airplane by rotating a theoretical expansion engine (3P), multiple drive rotor blades (7B) as ultrahigh pressure fuel combustion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) Multiple drive rotor blade (7B) Various energy storage cycle coalescence engine driven by multiple rotation and oxygen combined rotor blade airplane (39P) Merge method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P), multiple drive rotor blades (7B), and an oxygen coalescence rotor blade airplane (39P) as ultrahigh pressure fuel combustion.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a combustion chamber (4Y) ultrahigh pressure fuel combustion with a theoretical expansion engine (3P), multiple drive rotor blades (7B), and multiple oxygen rotor blade airplanes (39P).   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical Combustion Chamber (4Y) Various Energy Conservation Cycle Combined Engine and Combined Method for Rotating Theoretical Expansion Engine (3P) Drive Rotor (7B) and Oxygen Combined Rotor Airplane (39P) as Ultra High Pressure Fuel Combustion .   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Theoretical combustion chamber (4Y) to be 21/60000 Ultra high pressure fuel combustion Theoretical expansion engine (3P) drive propeller (7A) Rotating oxygen uniting air injection unit (88A) Various energy storage cycle uniting engine driving unit Method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) drive propeller (7A) as an ultrahigh pressure fuel combustion and driving an oxygen coalescence air injection unit (88A) injection propulsion airplane.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method for driving a theoretical expansion engine (3P) drive propeller (7A) and driving an oxygen coalescence air injection part (88A) injection propulsion airplane as combustion chamber (4Y) ultrahigh pressure fuel combustion.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical Combustion Chamber (4Y) Super High Pressure Fuel Combustion Theoretical Expansion Engine (3P) Multiple Drive Propeller (7A) Multiple Rotating Oxygen Combined Air Injection Unit (88A) Injection Propulsion Plane Driven Various Energy Conservation Cycle Combined Engine And coalescing method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P), multiple drive propeller (7A), and oxygen combined air injection unit (88A) as a super high pressure fuel combustion.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a combustion chamber (4Y) ultra-high pressure fuel combustion with a theoretical expansion engine (3P), multiple drive propeller (7A), multiple rotations, and an oxygen coalescence air injection unit (88A) injection propulsion airplane drive.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) ultra-high pressure fuel combustion theoretical expansion engine (3P) multiple drive propeller (7A) multiple rotation oxygen combined air injection unit (88A) injection propulsion oxygen combined propeller injection airplane (39N) drive Various energy storage cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P) multi-drive propeller (7A) as a super-high pressure fuel combustion multiple oxygen storage air injection unit (88A) injection propulsion oxygen combination propeller injection airplane (39N) driven various energy storage cycle combination engine and combination Method.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) Super-high pressure fuel combustion Theoretical expansion engine (3P) Multiple drive propeller (7A) Multiple rotations and oxygen combination air injection unit (88A) Injection propulsion oxygen combination propeller injection plane (39N) Organization and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) As the ultra high pressure fuel combustion, the theoretical expansion engine (3P) drive propeller (7A) rotates, and the oxygen combined air injection part (88A) injection propulsion oxygen combined propeller injection airplane (39N) drives Energy conservation cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) Ultra high pressure fuel combustion High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y), and the theoretical expansion engine (3P ) Various energy storage cycle coalescence engines and coalescence methods to be driven.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High-pressure and high-temperature combustion gas control valve (5a) as an ultra-high pressure fuel combustion Various high-pressure high-temperature combustion gas (50) is injected from an open combustion gas injection nozzle (6Y) and driven by a theoretical expansion engine (3P). And coalescing method.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various kinds of energy storage for driving a theoretical expansion engine (3P) by injecting a high-pressure high-temperature combustion gas (50) from a high-pressure high-temperature combustion gas control valve (5a) open combustion gas injection nozzle (6Y) as combustion chamber (4Y) ultrahigh-pressure fuel combustion Cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) Ultra high pressure fuel combustion High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y), and the upper expansion blade (8d ) Various energy storage cycle coalescence engine and coalescence method for driving a theoretical expansion engine (3P) that reversely inverts the lower expansion blade (8e) on the horizontal axis (1h).   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High pressure and high temperature combustion gas control valve (5a) for high pressure fuel combustion (5a) High pressure and high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y), and the upper expansion blade (8d) and the lower expansion blade (8e) Horizontal axis (1h) Theoretical expansion engine (3P) that is doubly reversed, and various energy storage cycle coalescence engines and coalescence methods that are driven.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from combustion chamber (4Y) ultra high pressure fuel combustion from open combustion gas injection nozzle (6Y), and upper expansion blade (8d) lower expansion blade ( 8e) Various energy storage cycle coalescence engines and coalescence methods for driving the theoretical expansion engine (3P) that reverses the horizontal axis (1h).   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) Ultra high pressure fuel combustion High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y), and the upper expansion blade (8d ) Various energy storage cycle coalescence engines and coalescence methods for driving the lower expansion blade (8e) to the theoretical expansion engine (3P) of the horizontal axis (1h) counter rotating assembly turbine blade (8f) assembly.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High pressure and high temperature combustion gas control valve (5a) for high pressure fuel combustion (5a) High pressure and high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y), and the upper expansion blade (8d) and the lower expansion blade (8e) Various energy storage cycle coalescence engines and coalescence methods for driving a horizontal expansion shaft (1h), a counter-rotating assembly turbine blade (8f), and a theoretical expansion engine (3P).   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from combustion chamber (4Y) ultra high pressure fuel combustion from open combustion gas injection nozzle (6Y), and upper expansion blade (8d) lower expansion blade ( 8e) Various energy storage cycle coalescence engines and coalescence methods for driving the theoretical expansion engine (3P) of the horizontal axis (1h) counter rotating assembly turbine blade (8f) assembly.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) high pressure high temperature combustion gas control valve (5a) as high pressure fuel combustion increases open air suction combustion amount, high pressure high temperature combustion gas (50) is injected from combustion gas injection nozzle (6Y) Then, various energy storage cycle coalescence engines and coalescence methods for driving the upper expansion blade (8d) and the lower expansion blade (8e) to the theoretical expansion engine (3P) of the horizontal axis (1h) counter rotating assembly turbine blade (8f) assembly.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultra-high-pressure fuel combustion Various energy storage cycle coalescence engine and coalescence to open a theoretical expansion engine (3P) expanding 380 degrees in the circumferential direction Method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) A high-pressure high-temperature combustion gas control valve (5a) as an ultrahigh-pressure fuel combustion (5a) various energy storage cycle coalescing engines and coalescence methods for a theoretical expansion engine (3P) that expands and expands 380 degrees in the circumferential direction.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods that make the combustion chamber (4Y) ultrahigh pressure fuel combustion into a high-pressure high-temperature combustion gas control valve (5a) open theoretical expansion engine (3P) that expands and expands 380 degrees in the circumferential direction.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultra-high pressure fuel combustion Various energy storage to make the theoretical expansion engine (3P) open maximum expansion speed by 380 degrees expansion in the circumferential direction Cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High-pressure and high-temperature combustion gas control valve (5a) as an ultra-high pressure fuel combustion, various energy storage cycle coalescence engines and coalescence methods to make the theoretical expansion engine (3P) open at a maximum drive speed by 380 degrees expansion in the circumferential direction.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method to make the combustion chamber (4Y) ultrahigh pressure fuel combustion high pressure high temperature combustion gas control valve (5a) open theoretical expansion engine (3P) with maximum expansion speed by expansion of 380 degrees in the circumferential direction .   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Theoretical combustion chamber (4Y) to be 21/60000 High pressure high temperature combustion gas control valve (5a) as super high pressure fuel combustion Opened in the theoretical expansion engine (3P) with maximum expansion speed by 380 degree expansion and counter rotation Various energy storage cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High-pressure and high-temperature combustion gas control valve as ultra-high pressure fuel combustion (5a) Opening in the circumferential direction 380 degree expansion and theoretical expansion engine (3P) for maximum driving speed by double reversal Method.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) Ultra high pressure fuel combustion High pressure high temperature combustion gas control valve (5a) Opening in the circumferential direction 380 degree expansion and theoretical expansion engine (3P) that maximizes driving speed by double reversal and combined with various energy storage cycles Organization and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultra-high pressure fuel combustion Open energy 380 degree expansion expansion and double expansion Theoretical expansion engine (3P) to reverse inversion Cycle coalescence engine and coalescence method.   Horizontal full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, liquid fuel (1c) Various energy storage cycle coalescence engines and coalescence methods that compress the liquid together with water (52a) and make the compression volume into a theoretical combustion chamber (4Y) in which the compression volume is 21/60000 volume of air compression or the like.   Horizontal type full-blade water gravity turbine (8R) Receives liquid fuel (1c) by receiving cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production ) And water (52a), and various energy storage cycle coalescing engines and coalescence methods that form a theoretical combustion chamber (4Y) in which the compression volume is 21/60000 volume of air compression or the like, and the ultrahigh pressure compression fuel injection combustion is performed.   Horizontal full-blade hydrogravity turbine (8R) Receives liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity, and produces liquid Various energy storage cycle coalescence engine and coalescence method that compresses liquid together with fuel (1c) and water (52a), and makes the compression volume a theoretical combustion chamber (4Y) that burns and burns ultra-high-pressure compressed fuel with air compression of 21/60000 volume, etc. .   Horizontal full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, liquid fuel (1c) Various energy storage cycle coalescence engines and coalescence methods that compress liquid with water (52a) and heat to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y).   Horizontal type full-blade water gravity turbine (8R) Receives liquid fuel (1c) by receiving cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production ) And water (52a), and various energy storage cycle coalescence engines and coalescence methods that are heated to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y).   Horizontal full-blade hydrogravity turbine (8R) Receives liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity, and produces liquid Various energy storage cycle coalescence engines and coalescence methods that compress liquid with fuel (1c) and water (52a) and heat to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y).   Horizontal full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, liquid fuel (1c) Combined with various energy storage cycles to open the heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y) by liquid compression with water (52a) Organization and coalescence method.   Horizontal type full-blade water gravity turbine (8R) Receives liquid fuel (1c) by receiving cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production ) And water (52a) and liquid compression to open the heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y) Cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) Receives liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity, and produces liquid Liquid oxygen compression with fuel (1c) and water (52a) is performed and the heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y). Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), and liquid fuel ( 1c) and water (52a) are compressed with liquid, and the heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y). Various energy storage cycle coalescence engine and coalescence method for injecting together.   Horizontal full-blade hydrogravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, heating oxygen control to the optimum temperature Various types of the valve (24D) + fuel control valve (25b) + superheated steam control valve (25) are made into a theoretical combustion chamber (4Y) that heats the outer superheated steam (50) by burning at 3000 ° C. or more near the center of the open oxygen fuel burner. Energy conservation cycle coalescence engine and coalescence method.   Horizontal type full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply facility (3D), which is extremely inexpensive power generator, and heats it to the optimum temperature Oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened to the theoretical combustion chamber (4Y) that heats the outer superheated steam (50) by burning at 3000 ° C or more near the center of the open oxygen fuel burner. Various energy storage cycle coalescence engine and coalescence method.   Horizontal type full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam and is optimal. Heating oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) to the temperature Theoretical combustion chamber for heating the outer superheated steam (50) by combustion at 3000 ° C or more near the center of the oxygen fuel burner ( 4Y) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, heating oxygen control to the optimum temperature Valve (24D) + Fuel control valve (25b) + Superheated steam control valve (25) is opened near the center of the oxygen fuel burner. Various energy storage cycle coalescing engine and coalescence method for a theoretical combustion chamber (4Y) aimed at decomposition.   Horizontal type full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply facility (3D), which is extremely inexpensive power generator, and heats it to the optimum temperature Open the oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) near the center of the oxygen fuel burner. Various energy storage cycle coalescence engine and coalescence method to make theoretical combustion chamber (4Y) aimed at decomposition electrolysis.   Horizontal type full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam and is optimal. Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) open near the center of the oxygen fuel burner Heating the peripheral superheated steam (50) by burning more than 3000 ° C near the center Various energy storage cycle coalescence engine and coalescence method to make the theoretical combustion chamber (4Y) aiming at suction pyrolysis electrolysis.   Horizontal full-blade hydrogravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, heating oxygen control to the optimum temperature Valve (24D) + Fuel control valve (25b) + Superheated steam control valve (25) is opened near the center of the oxygen fuel burner. Various energy storage cycle coalescence engine and coalescence method to make the theoretical combustion chamber (4Y) aiming at the combustion with increased cracked oxygen hydrogen.   Horizontal type full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply facility (3D), which is extremely inexpensive power generator, and heats it to the optimum temperature Open the oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) near the center of the oxygen fuel burner. Various energy storage cycle coalescing engine and coalescence method for a theoretical combustion chamber (4Y) aiming at increased combustion of electrolysis oxygen hydrogen hydrogen.   Horizontal type full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam and is optimal. Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) open near the center of the oxygen fuel burner Heating the peripheral superheated steam (50) by burning more than 3000 ° C near the center Various energy storage cycle coalescence engine and coalescence method to make the theoretical combustion chamber (4Y) aiming at the increased combustion by suction pyrolysis electrolysis oxygen hydrogen.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + superheated steam to the optimum temperature Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened in the vicinity of the center of the oxygen fuel burner. Various energy storage cycle coalescing engine and coalescence method to make the theoretical combustion chamber (4Y) aiming at increased combustion by suction pyrolysis electrolysis oxygen hydrogen hydrogen near the center.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) As a streamline type, various energy storage cycle coalescing engines and coalescence methods in which a plurality of in-line combustion gas (49) oxygen merging water injection part (88K) for accelerating injection are provided.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( Various energy storage cycle coalescing engines and coalescence methods in which a combustion gas (49) injection accelerating injection oxygen merging water injection part (88K) having a plurality of in-line combustion streams (4Y) as a streamline type.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods in which the combustion chamber (4Y) is a streamlined type and a plurality of in-line combustion gas (49) oxygen acceleration water injection parts (88K) for injection acceleration injection.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) A streamlined combustion gas (49) with a series of combustion gases (49Y) and oxygen combined water injection part (88K) using (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam heated at optimum temperature Energy conservation cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) is a streamlined combustion gas (49) with a series of combustion gas (49Y) and oxygen combined fuel injection unit (88K) that uses oxygen + fuel + superheated steam on the inner wall and combustion flow inner wall (5d) at the optimum temperature Various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Oxygen combined water injection unit (5Y) with an oxygen + fuel + superheated steam (4Y) inner wall and combustion flow inner wall (5d) heated at an optimal temperature with a combustion chamber (4Y) having a streamlined combustion chamber (4). 88K), various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) Oxygen combined water with the combustion gas (49) in the form of a streamline and (4Y) inner wall or combustion flow inner wall (5d) with oxygen + fuel + superheated steam heated to the optimum temperature for combustion in the theoretical combustion chamber (4Y), etc. Various energy storage cycle coalescence engine and coalescence method in the injection section (88K).   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) is a streamlined combustion gas (49) with a plurality of in-line combustion gases (49), oxygen (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated to the optimum temperature to make the theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engine and coalescence method in the coalescence water injection part (88K).   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) is streamlined and combustion gas (49) is provided in series. (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated at optimum temperature, theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence water injection section (88K).   Horizontal full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), theoretical combustion chamber (4Y) is a streamlined combustion gas (49) comprising a plurality of series combustion gas (49Y) and (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam containing received heating steam is heated to an optimum temperature to generate a theoretical combustion chamber (4Y ) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence water injection part (88K) for combustion or the like.   Horizontal full-blade water gravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), oxygen + on each inner wall Various energy storage cycles in which the fuel + superheated steam is heated to the optimum temperature and the oxygen combustion burner (88K) is used for the oxygen combustion burner at the center of the theoretical combustion chamber (4Y) and burns at 3000 ° C or more for superheated steam suction pyrolysis electrolysis Merger engine and merger method.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature, and the energy in the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner is burned at 3000 ° C for more than 3000 ° C, and the oxygen combined water injection part (88K) is aimed at superheated steam suction pyrolysis electrolysis Storage cycle coalescence engine and coalescence method.   Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. Oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the chamber, and the oxygen combustion burner near the center of the theoretical combustion chamber (4Y) burns more than 3000 ° C into the oxygen combined water injection part (88K) aimed at superheated steam suction pyrolysis electrolysis Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade water gravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), oxygen + on each inner wall The fuel + superheated steam is heated at the optimum temperature, and the oxygen combustion burner near the center of the theoretical combustion chamber (4Y) is burned at 3000 ° C or more to make an oxygen coalescence water injection part (88K) aimed at superheated steam suction pyrolysis electrolysis oxygen hydrogen increase combustion Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature, near the center of the theoretical combustion chamber (4Y), oxygen fuel burner burned at 3000 ° C or more, superheated steam suction pyrolysis electrolysis oxygen hydrogen water injection part aimed at increasing oxygen hydrogen combustion (88K) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. Oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber (4Y) near the center of the oxygen fuel burner. Combustion of more than 3000 ° C with superheated steam suction pyrolysis electrolysis Oxygen hydrogen increased combustion target oxygen combined water injection unit (88K) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade water gravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), oxygen + on each inner wall The fuel + superheated steam is heated at the optimum temperature, and the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) is heated and injected by combustion in the vicinity of the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner at 3000 ° C or more. Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection section (88K).   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature to heat the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam pool (95c) by burning more than 3000 ° C near the center of the theoretical combustion chamber (4Y). Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection part (88K) for injection.   Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. The oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber, and the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner burns at a temperature of 3000 ° C. or more. ) And an energy storage cycle coalescence engine and a coalescence method using an oxygen coalescence water injection unit (88K) that injects heat.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + superheated steam, each inner wall The oxygen + fuel + superheated steam is heated at the optimum temperature and the theoretical combustion chamber (4Y) near the center oxygen fuel burner burns at 3000 ° C or more and includes the superheated steam received from the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection section (88K) that heats and jets steam (50).   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, air (28a) suction injection Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection section (88K) that combusts and injects a plurality of streamline type theoretical combustion chambers (4Y) at the optimum flow location.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, receives electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), receives cheap liquid oxygen (5K) + electricity, and air (28a) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injecting section (88K) that combusts and injects a plurality of streamlined theoretical combustion chambers (4Y) even at the optimum location of the suction jet flow.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam, and air (28a) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence water injecting section (88K) that combusts and injects a plurality of streamline type theoretical combustion chambers (4Y) even at the optimum location of the suction jet flow.   Horizontal full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely low-cost power generation electricity production, oxygen combined water injection part ( 88K), various energy storage cycle coalescing engines and coalescence methods in which the air inlet is expanded forward.   Horizontal all-blade water gravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, oxygen combined water injection Various energy storage cycle coalescing engine and coalescence method in which the air inlet is expanded to the front (88K).   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), oxygen Various energy storage cycle coalescence engines and coalescence methods in which the coalescing water injection section (88K) is used to enlarge the air inlet forward.   Horizontal full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely low-cost power generation electricity production, oxygen combined water injection part ( 88K), various energy storage cycle coalescing engines and coalescence methods for enlarging the air inlet forward, approaching a straight line, and injecting the maximum amount of bubbles to the bottom of the ship.   Horizontal all-blade water gravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, oxygen combined water injection Various energy storage cycle coalescing engine and coalescence method, in which the air inlet is enlarged forward and close to a straight line, and bubbles are maximally injected onto the bottom of the ship.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), oxygen Various energy storage cycle coalescing engine and coalescence method in which the coalescing water injection part (88K) is used to enlarge the air inlet forward and bring it close to a straight line to inject the maximum amount of bubbles to the bottom of the ship.   Horizontal all-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is extremely inexpensive power generation electricity production, oxygen combined water Various energy storage cycle coalescence engines and coalescence methods that use an injection section (88K) to enlarge the air inlet forward and bring it close to a straight line to inject the maximum amount of bubbles to the bottom of the ship.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) As a streamline type, a plurality of energy storage cycle coalescence engines and coalescence methods in which a plurality of combustion gas (49) injection accelerating injection oxygen merging air injection portions (88A) are provided in series.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( Various energy storage cycle coalescing engines and coalescence methods in which a combustion gas (49) injection accelerating injection oxygen merging air injection part (88A) having a plurality of series in a streamlined form is used as 4Y).   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods in which the combustion chamber (4Y) is a streamlined type and a plurality of in-line combustion gas (49) oxygen acceleration air injection portions (88A) for injection acceleration injection.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) A streamlined combustion gas (49) with various oxygen gas injection parts (88A) that use oxygen gas + fuel + superheated steam on the inner wall (4Y) and combustion flow inner wall (5d) at an optimum temperature. Energy conservation cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) is a streamlined type of combustion gas (49) provided in series with the oxygen combined air injection unit (88A) that uses the oxygen + fuel + superheated steam on the inner wall (5Y) and the combustion flow inner wall (5d) with the optimum temperature heating. Various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Oxygen combined air injection unit that uses the combustion chamber (4Y) as a streamlined combustion gas (49) with a plurality of in-series combustion gases (49) and the oxygen + fuel + superheated steam on the inner wall (5Y) and combustion flow inner wall (5d) at an optimal temperature ( 88A) various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) A streamlined combustion gas (49) with a plurality of in-line combustion gas (4Y) and oxygen combined air (4Y) to the theoretical combustion chamber (4Y) combustion, etc. by heating the oxygen + fuel + superheated steam on the inner wall or combustion flow inner wall (5d) at the optimum temperature Various energy storage cycle coalescence engine and coalescence method in the injection section (88A).   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) is a streamlined combustion gas (49) with a plurality of in-line combustion gases (49), oxygen (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated to the optimum temperature to make the theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engine and coalescence method in the coalescence air injection section (88A).   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) is streamlined and combustion gas (49) is provided in series. (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated at optimum temperature, theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence air injection section (88A).   Horizontal full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), theoretical combustion chamber (4Y) is a streamlined combustion gas (49) comprising a plurality of series combustion gas (49Y) and (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam containing received heating steam is heated to an optimum temperature to generate a theoretical combustion chamber (4Y ) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence air injection section (88A) for combustion or the like.   Horizontal full-blade water gravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), oxygen + on each inner wall Various energy storage cycles in which the fuel + superheated steam is heated at the optimum temperature and the oxygen combustion burner near the center of the theoretical combustion chamber (4Y) is burned at 3000 ° C or more to form an oxygen coalesced air injection unit (88A) aimed at superheated steam suction pyrolysis electrolysis Merger engine and merger method.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to an optimal temperature, and the energy is made into an oxygen coalescence air injection unit (88A) aimed at superheated steam suction pyrolysis electrolysis by burning over 3000 ° C near the theoretical combustion chamber (4Y) oxygen fuel burner Storage cycle coalescence engine and coalescence method.   Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. Oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber (4Y) near the center of the oxygen fuel burner. Combustion at 3000 ° C or higher to superheated steam suction pyrolysis electrolysis target oxygen combined air injection part (88A) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade water gravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), oxygen + on each inner wall The fuel + superheated steam is heated at the optimum temperature, and the oxygen combustion burner near the center of the theoretical combustion chamber (4Y) is burned at 3000 ° C or more to form an oxygen coalescence air injection unit (88A) aimed at superheated steam suction pyrolysis electrolysis oxygen hydrogen augmentation combustion Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature, near the center of the theoretical combustion chamber (4Y), oxygen fuel burner burns at 3000 ° C or higher, superheated steam suction pyrolysis electrolysis oxygen hydrogen injection unit aimed at increasing oxygen hydrogen combustion (88A) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. Oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber (4Y) near the center of the oxygen fuel burner. Combustion of more than 3000 ° C with superheated steam suction pyrolysis electrolysis Oxygen hydrogen increased combustion target oxygen combined air injection unit (88A) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade water gravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), oxygen + on each inner wall The fuel + superheated steam is heated at the optimum temperature, and the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) is heated and injected by combustion in the vicinity of the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner at 3000 ° C or more. Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence air injection section (88A).   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature to heat the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam pool (95c) by burning more than 3000 ° C near the center of the theoretical combustion chamber (4Y). Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence air injection section (88A) for injection.   Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. The oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber, and the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner burns at a temperature of 3000 ° C. or more. ) And an energy storage cycle coalescence engine and a coalescence method in an oxygen coalesced air injection section (88A) for heating and spraying.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + superheated steam, each inner wall The oxygen + fuel + superheated steam is heated at the optimum temperature and the theoretical combustion chamber (4Y) near the center oxygen fuel burner burns at 3000 ° C or more and includes the superheated steam received from the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence air injection section (88A) that heats and jets steam (50).   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, air (28a) suction injection Various energy storage cycle coalescence engines and coalescence methods in which an oxygen coalescence air injection section (88A) that combusts and injects a plurality of streamline type theoretical combustion chambers (4Y) at the optimum flow location.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, receives electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), receives cheap liquid oxygen (5K) + electricity, and air (28a) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence air injection section (88A) that combusts and injects a plurality of streamlined theoretical combustion chambers (4Y) at the optimum location of the suction injection flow.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam, and air (28a) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalesced air injection part (88A) that combusts and injects a plurality of streamline type theoretical combustion chambers (4Y) even at the optimum place of the suction injection flow.   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, oxygen combined air injection part ( 88A), various energy storage cycle coalescence engines and coalescence methods that enable vertical ascent and descent.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, oxygen combined air injection Various energy storage cycle coalescing engines and coalescence methods that enable vertical ascent and descent by rotating the part (88A).   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), oxygen Various energy storage cycle coalescence engines and coalescence methods that enable vertical ascent and descent by rotating the coalescence air injection section (88A).   Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, oxygen combined air injection part ( 88A), various energy storage cycle coalescence engines and coalescence methods that enable reverse injection.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, oxygen combined air injection Various energy storage cycle coalescence engines and coalescence methods that enable reverse injection by rotating the section (88A).   Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), oxygen Various energy storage cycle coalescence engines and coalescence methods that enable reverse injection by rotating the coalescence air injection section (88A).   Horizontal all-blade water gravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam temperature supply facility (3D), oxygen combined air Various energy storage cycle coalescence engines and coalescence methods that enable the reverse injection by rotating the injection section (88A).   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is Various energy storage cycle coalescing engines and coalescence methods as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade aiming inversely proportional to pressure to a central short compressor blade.   Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure Various energy storage cycle coalescing engines and coalescence methods using an electrically driven theoretical gas compressor (3T) that compresses a long compression blade into a central short compression blade.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods as an electrically driven theoretical gas compressor (3T) that compresses from a target outer peripheral long compression blade to a central short compression blade.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is Various energy storage cycle coalescence engines and coalescence methods for sucking and compressing air as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade to a central short compressor blade aimed inversely proportional to pressure.   Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure Various energy storage cycle coalescence engines and coalescence methods for sucking and compressing air as an electrically driven theoretical gas compressor (3T) that compresses a long compression blade into a central short compression blade.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods for sucking and compressing air as an electrically driven theoretical gas compressor (3T) that compresses a target outer peripheral long compression blade into a central short compression blade.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is Various energy storage cycle coalescence engine and coalescence method for producing compressed heat exchange superheated steam by sucking air as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade aiming inversely proportional to pressure to a central short compressor blade.   Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure Various energy storage cycle coalescence engines and coalescence methods for producing compressed heat exchange superheated steam by sucking air as an electrically driven theoretical gas compressor (3T) that compresses a long compression blade into a central short compression blade.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods for producing compressed heat exchange superheated steam by sucking air as an electrically driven theoretical gas compressor (3T) that compresses from a target outer peripheral large compression blade to a central short compression blade.   Horizontal type full-blade water gravity turbine (8R) is an extremely inexpensive generator for electric power generation, receives electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), cheap electricity + hot water (52b) + superheated steam, and gas As an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade whose volume is inversely proportional to the pressure to a central short compressor blade, and various energy storage cycle coalescence engines and coalescence engines that produce compressed heat exchange superheated steam by sucking air Method.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is Various energy storage cycles in which superheated steam is produced with an intake-compression compressed-air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade that is inversely proportional to pressure to a central short compressor blade Merger engine and merger method.   Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure Various energy storage cycle coalescence engines and coalescence methods for producing superheated steam with an intake compression air compressor (2Y) as an electrically driven theoretical gas compressor (3T) that compresses a long compression blade into a central short compression blade.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure Various energy storage cycle coalescence engines that produce superheated steam with an intake-compression compressed air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses from a target outer peripheral long compression blade to a central short compression blade, and Merge method.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is As an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade that is inversely proportional to the pressure to a central short compressor blade, air is sucked into the compressed compressed air heat exchanger (2Y) to produce and supply superheated steam (3D) Various energy storage cycle coalescence engine and coalescence method to be supplied to   Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure Various types of energy storage for supplying superheated steam to the production and supply equipment (3D) using the intake-compression compressed air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses from the large compressor blades to the central short compressor blades Cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure As an electrically driven theoretical gas compressor (3T) that compresses from the target outer peripheral large compression blade to the central short compression blade, air is supplied to the production supply facility (3D) by the intake compression air heat exchanger (2Y). Various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is Production and supply equipment of compressed air + superheated steam with an intake-compressed compressed air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade to a central short compressor blade aiming inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods supplied to (3D).   Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure As an electrically driven theoretical gas compressor (3T) that compresses from a large compressor blade to a central short compressor blade, air is supplied to a production supply facility (3D) by a suction compressed air heat exchanger (2Y). Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure As the electric driven theoretical gas compressor (3T) that compresses from the target outer peripheral large compressor blade to the central short compressor blade, air is sucked in and compressed compressed air heat exchanger (2Y) produces and supplies compressed air + superheated steam (3D) Various energy storage cycle coalescence engine and coalescence method to be supplied to   Horizontal type full-blade water gravity turbine (8R) is an extremely inexpensive generator for electric power generation, receives electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), cheap electricity + hot water (52b) + superheated steam, and gas As an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade, whose volume is inversely proportional to the pressure, to a central short compressor blade, air is sucked into the compressed air heat exchanger (2Y) and compressed air + superheated steam Various energy storage cycle coalescence engine and coalescence method to be supplied to the production supply facility (3D).   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods configured to be compressed into   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescing engine and coalescence method for compressing air as a structure to be compressed into the air.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescing engines and coalescing methods for compressing air (28a) as a structure to be compressed into the air.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescing engines and coalescence methods for compressing air (28a) from the outer periphery to the suction center as a structure to be compressed into the air.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for heating air (28a) compressed water from the outer periphery to the suction center as a configuration for compressing the air.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for heating air (28a) compressed high-temperature water from the outer periphery to the suction center as a structure to be compressed into the air.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for heating air (28a) compressed superheated steam from the outer periphery to the suction center as a structure to be compressed into   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods in which water is heated by air (28a) compressed and compressed air heat exchanger (2Y) from the outer periphery to the suction center as a structure to be compressed into the air.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods in which high temperature water is heated by air (28a) compressed and compressed air heat exchanger (2Y) from the outer circumference to the suction center from the outer periphery.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods, in which superheated steam is heated by air (28a) compressed and compressed air heat exchanger (2Y) from the outer periphery to the suction center from the outer periphery.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for producing superheated steam with a compressed air heat exchanger (2Y) as a configuration to be compressed into the air.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for producing compressed air + superheated steam with a compressed air heat exchanger (2Y) as a configuration to be compressed into the air.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for producing high-pressure compressed air + high-pressure superheated steam with a compressed air heat exchanger (2Y) as a structure to be compressed into the air.   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for producing ultra-high pressure compressed air + ultra-high pressure superheated steam with a compressed air heat exchanger (2Y) as a structure to be compressed into   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescing engines and coalescence methods for supplying compressed air + superheated steam production and supply equipment (3D) with a compressed air heat exchanger (2Y) as a structure to be compressed into   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods to be supplied to the high pressure compressed air + high pressure superheated steam production / supply facility (3D) with a compressed air heat exchanger (2Y) as a structure to be compressed into   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods to be supplied to the ultra high pressure compressed air + ultra high pressure superheated steam production and supply facility (3D) by the compressed air heat exchanger (2Y) as a structure to be compressed into   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for supplying liquid air + super high pressure superheated steam production and supply equipment (3D) with a compressed air heat exchanger (2Y) as a structure to be compressed into   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engine and coalescence method for supplying to liquid oxygen + liquid nitrogen + super high pressure superheated steam production / supply facility (3D) by compressed air heat exchanger (2Y) as a structure to be compressed into   Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engine and coalescence method to be supplied to electricity + liquid oxygen + liquid nitrogen + super high pressure superheated steam production and supply equipment (3D) by compressed air heat exchanger (2Y) as a structure to be compressed into   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. Various energy storage cycle coalescence engines and coalescence methods in which fuel is injected and burned from a plurality of locations in the fuel pipe (25a) and the extended upper expansion blade group (8d) in the expansion process of 380 degrees.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, Various energy storage cycle coalescence engines and coalescence methods in which fuel is injected and burned from a plurality of locations in the fuel pipe (25a) and the extended upper expansion blade group (8d) in the expansion process in the circumferential direction of 380 degrees.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion In addition, various energy storage cycle coalescence engines and coalescence methods in which fuel is injected and burned from a plurality of locations in the fuel pipe (25a) and the extended upper expansion blade group (8d) in the circumferential expansion process of 380 degrees.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. Various energy storage cycle coalescence engines and coalescence methods that increase the fuel injection combustion combustion amount from a plurality of locations in the fuel pipe (25a) extended upper expansion blade group (8d) in the expansion process of 380 degrees.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, Various energy storage cycle coalescence engines and coalescence methods that increase the fuel injection combustion combustion amount from a plurality of locations in the fuel pipe (25a) extended upper expansion blade group (8d) in the expansion process of 380 degrees in the circumferential direction.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion In the expansion process of 380 degrees in the circumferential direction, various energy storage cycle coalescence engines and coalescence methods for increasing the amount of fuel injection combustion combustion from a plurality of locations of the fuel pipe (25a) extended upper expansion blade group (8d).   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. Various energy storage cycle coalescence engines and coalescence methods for compressing air with the turbine outer box (77a) in the expansion process of 380 degrees.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, Various energy storage cycle coalescence engines and coalescence methods for air compression with the turbine outer box (77a) in the expansion process in the circumferential direction of 380 degrees.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion Then, various energy storage cycle coalescence engines and coalescence methods for compressing air with the turbine outer casing (77a) in the circumferential direction of 380 degrees expansion process.   Horizontal full-blade water gravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D), cheap liquid oxygen (5K) + superheated steam is received and injected and burned, Various energy storage cycle coalescence engines and coalescence methods for air compression with the turbine outer casing (77a) in the circumferential expansion process of 380 degrees.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. Various energy storage cycle coalescence engines and coalescence methods in which a plurality of air compression upper expansion blade groups (8d) and lower expansion blade groups (8e) are injected into and out of the turbine outer box (77a) in a 380 degree expansion process.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, Various energy storage cycle coalescence engines and coalescence methods in which a plurality of air compression upper expansion blade groups (8d) and lower expansion blade groups (8e) are injected into and out of the turbine outer casing (77a) in the circumferential expansion process of 380 degrees.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion Then, in the expansion process of 380 degrees in the circumferential direction, various energy storage cycle coalescing engines for injecting a plurality of locations of the upper compression blade groups (8d) and the lower expansion blade groups (8e), respectively, with the turbine outer casing (77a), and Merge method.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. In the expansion process of 380 degrees, air compression between the upper expansion blade group (8d) and the lower expansion blade group (8e) between the turbine outer box (77a) and the theoretical expansion engine (3P) that increases the amount of fuel injected at a plurality of locations. Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, In the expansion process of 380 degrees in the circumferential direction, various types of energy storage cycle coalescence engines that increase the amount of fuel injected by injection of air at the upper expansion blade group (8d) and the lower expansion blade group (8e) at a plurality of positions with the turbine outer casing (77a). And coalescing method.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion Thus, in the process of expansion in the circumferential direction of 380 degrees, various types of energy storage are performed in which the amount of injected fuel combustion increases at each of the upper expansion blade group (8d) and the lower expansion blade group (8e) between the air compression and the turbine outer casing (77a). Cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. During the 380 degree expansion process, fuel is injected and burned from a plurality of locations in the fuel pipe (25a) and the extended upper expansion blade group (8d), and the lower expansion of each of the upper expansion blade group (8d) is compressed with the turbine outer casing (77a). Blade group (8e) Various energy storage cycle coalescence engine and coalescence method for increasing the amount of fuel combustion at multiple locations.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, In the expansion process of 380 degrees in the circumferential direction, fuel is injected and combusted from a plurality of locations in the fuel pipe (25a) and the extended upper expansion blade group (8d), and is compressed between the turbine outer casing (77a) and the upper expansion blade group (8d). Side expansion blade group (8e) Various energy storage cycle coalescence engine and coalescence method for increasing the amount of fuel injected at a plurality of locations.   Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion Then, in the expansion process of 380 degrees in the circumferential direction, the fuel pipe (25a) extends the upper expansion blade group (8d), fuel is injected and combusted from a plurality of locations, and air compression is performed between the upper expansion blade groups (77a). 8d) Lower expansion blade group (8e) Various energy storage cycle coalescing engines and coalescence methods for increasing the amount of fuel injected at a plurality of locations.   Horizontal full-blade water gravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D), cheap liquid oxygen (5K) + superheated steam is received and injected and burned, During the expansion process of 380 degrees in the circumferential direction, the fuel pipe (25a) and the upper expansion blade group (8d) are fuel-injected and combusted from a plurality of locations, and air compression is performed between the upper expansion blade group (8d) and the turbine outer casing (77a). Lower expansion blade group (8e) Various energy storage cycle coalescence engine and coalescence method for increasing the amount of fuel injected at multiple locations.   Horizontal full-blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet sprayed and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) counter-synchronous gear (4C) series rotation gear (4D) rotation Various energy storage cycle coalescence engines and coalescence methods for generating power with a plurality of turbines.   Horizontal full blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water acceleration is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) in-line co-rotating gear (4D) rotates, and power is generated by multiple turbines Various energy storage cycle coalescence engine and coalescence method.   Horizontal full blade water gravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravitational acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotates and various types of cylindrical turbine blade group (8A) generate a lot of power Energy conservation cycle coalescence engine and coalescence method.   Horizontal full blade water gravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotates and 20 sets of cylindrical turbine blade group (8A) generate power Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) is rotated, and 40 sets of cylindrical turbine blade group (8A) are generated. Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade water gravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) is rotated by horizontal axis (16A), and 80 sets of cylindrical turbine blade group (8A) are generated. Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade water gravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotates and 100 sets of cylindrical turbine blade group (8A) generate power Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet accelerated, gravity acceleration accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotated to generate 150 sets of cylindrical turbine blade group (8A) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotates to generate 200 sets of cylindrical turbine blade group (8A) Various energy storage cycle coalescence engines and coalescence methods.   Various energy storage cycle coalescence engines and coalescence methods for driving a horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion + jet combustion as an oxygen coalescence water injection unit (88K).   Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence water injection section (88K) as a horizontal full-blade water gravity turbine (8R) power generation electrical product + two rocket combustion + two jet combustion locations.   Various energy storage cycle coalescence engines and coalescence methods that drive the oxygen coalescence water injection unit (88K) as a horizontal full blade water gravity turbine (8R) power generation electric product + three rocket combustion + three jet combustion locations.   Various energy storage cycle coalescence engine and coalescence method for driving oxygen combined water injection unit (88K) as horizontal full-blade water gravity turbine (8R) power generation electrical product + rocket combustion 4 locations + jet combustion 4 locations.   Various energy storage cycle coalescence engine and coalescence method for driving oxygen coalescence water injection part (88K) as horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion 5 locations + jet combustion 5 locations.   Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence water injection part (88K) as a horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion 6 locations + jet combustion 6 locations.   Various energy storage cycle coalescence engine and coalescence method for driving a horizontal all blade water gravity turbine (8R) power generation electric product + rocket combustion + jet combustion as an oxygen coalescence air injection unit (88A).   Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence air injection unit (88A) as a horizontal full-blade water gravity turbine (8R) power generation electrical product + two rocket combustion + two jet combustion locations.   Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence air injection unit (88A) as a horizontal full-blade water gravity turbine (8R) power generation electric product + three rocket combustion + three jet combustion locations.   Various energy storage cycle coalescing engines and coalescence methods for driving an oxygen coalescence air injection unit (88A) as a horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion 4 places + jet combustion 4 places.   Various energy storage cycle coalescence engines and coalescence methods for driving the oxygen coalesced air injection unit (88A) as a horizontal full blade water gravity turbine (8R) power generation electric product + rocket combustion 5 locations + jet combustion 5 locations.   Various energy storage cycle coalescing engines and coalescence methods for driving the oxygen coalesced air injection unit (88A) as horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion 6 places + jet combustion 6 places.