JP2014005751A - Various energy storing cycle integrated mechanism - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a various energy storing cycle integrated mechanism in which an existing steam turbine power generation has stator vane of zero output in half to block a steam speed to realize approximate zero output power generation, such as reduction of the steam speed to 1/10 and 43000 times a capacity of maximum speed part water.SOLUTION: A power generation amount is improved to 1/10 or less by having a half stator vane of zero output to block a light steam speed etc. and light object power generation. All blades are doubly inverted by a lateral shaft 1h gear to realize water gravity acceleration power generation in 30 mmHg vacuum in order to achieve Mach 30, and 100 units of water injection turbines 100 are combined to achieve 100 times the existing power generation amount per unit power generation amount. Thereby it is realized that a facility 3D supplies electricity generated by means of a solar heating driven with electricity inexpensive due to zero fuel cost and 1/100 power generation cost etc., a liquid air, and super heated steam heating. Cars, ships, aircrafts, and so on are driven by means of liquid oxygen pressurization to achieve 21/60000 times a capacity compression work rate compared to air compression to realize 1/10 times the fuel cost and 10 times the speed. Aircrafts are aimed to reach to the outer space in 1/500000 the cost and enable day trip etc. anywhere on the earth. An operation margin percentage over all products is aimed to the exceptional and eternal best in the world.

Description

The present invention is a horizontal full blade hydrogravity turbine 8T power generation aiming at Mach 30 water drive with liquid jet velocity + gravity acceleration in vacuum and super high speed circumferential speed. At the peripheral speed, the counter synchronous gear 4c and the series co-rotating gear 4d make the counter synchronous rotation and the series co-rotation high output of ultra high speed rotation. Gravity acceleration addition + Mach 3 or higher high speed injection addition + Turbine number unlimited head drop unlimited addition, for example water jet vacuum gravity acceleration aiming at Mach 28, etc. Aiming for power generation that requires zero fuel cost, zero resource price, and zero boiler / reactor abolition, water gravity turbine 8R power generation electric drive simple multistage compressor 3t + liquid oxygen production machine 88 Or a simple multi-stage compressor 3t driven by a simple gas engine 88d, a simple water injection engine 88e, or a simple injection engine 88f. 200MPa superheated steam 50 heat + liquid air 28a cold storage, electricity + liquid air cold heat + superheated steam heat supply equipment 3D, various heat use + liquid use infinite use correspondence, ship and vehicle and airplane drive, For example, ships, vehicles, airplanes, etc. receive liquid oxygen and set the compression volume work rate to 21/60000 volume work rate of air compression, making liquid oxygen or water compression pressure 20 times easy, etc. Rotational force drive, combined injection propulsion of simple injection engine 88f and simple water injection engine 88e, and ship combined injection promotion, natural phenomenon speeding up 2a Nitrogen, oxygen and CO2 in seawater The supply of microorganisms and seaweeds will increase, and the food chain will greatly increase the food of humans such as fish. The ship is aimed at 10 times speed and relates to various energy conservation cycle coalescence engines and various energy conservation coalescence techniques.

  The world's largest automobile driven reciprocating engine consumes enormous amount of fuel due to air compression, and it is a horizontal all-blade water gravity turbine 8T vacuum-in-water gravity acceleration power generation electric manufacturing of electricity + liquid air cold heat + superheated steam heat supply equipment 3D More supply, for example, superheated steam is injected into methane hydrate under permafrost land or under the sea, methane and water are divided into methane and water, recovered with liquid nitrogen cooled liquid methane, liquid oxygen chamber 5K receives liquid oxygen 5K and liquid oxygen 5K The compression volume work rate is set to 21/60000 volume work rate of air compression, and the pressure is set to 24 to 200 MPa ultra-high pressure compression injection, and liquid oxygen 5K + liquid fuel 1b + high temperature water 52a is compressed to the ultra high pressure. The fuel is injected and burned in the process of injecting each into the theoretical combustion chamber 4Q by heating to a super-high temperature or optimum temperature, etc., and high pressure by ultra-high pressure oxygen + ultra-high pressure fuel high temperature combustion The superheated steam 50 is heated by the hot water heating pipe 5H, and the study is conducted on the double-side center support high speed double reversal including the driving of the simple gas engine 88d etc. with the liquid oxygen 0, and the super high pressure combustion gas 49 + superheat in the theoretical combustion chamber 4Q. The steam 50 is injected from the high-pressure and high-temperature combustion gas control valve 5a and the combustion gas injection nozzle 6Y, and the simple gas engine 88d is driven to drive various vehicles such as automobiles and tillers, propellers 7A, rotor blades 7B, and screws 7C. Driving, driving various vehicles, propeller airplanes and screw ships, aiming at fuel cost 1/10 or 10 times speed by using liquid oxygen 5K for electricity generation electricity generation, aiming at the world's best operating profit rate, various The present invention relates to an energy storage cycle coalescence engine and a coalescence technique.

  The existing jets are also blocked by stationary blades and consume a huge amount of fuel by air compression, such as zero output, and the rotational output and propulsion propulsion output are very small. As a liquid compression simple injection engine 88f injection propulsion aim, the horizontal full-blade water gravity turbine 8T power generation electric drive many 1 to multiple stage simple multistage compressor 3t etc. by heat pump 1G + solar heater 21 heat production, 24 to 200 MPa high-temperature water to superheated steam temperature 50 + liquid air cold heat 28a is divided and stored. As electricity + liquid air cold heat + superheated steam temperature heat supply equipment 3D, the aircraft propulsion is liquid oxygen 5K + liquid fuel 1c + high-pressure high-temperature water 52a. Receiving and compressing the compressed volumetric power by liquid oxygen compression at a high pressure of 21/60000 volumetric power of air compression, each of which is simple injection engine 88f The fuel heating pipe 1L water heating pipe 5H oxygen heating pipe 5F, such as not shown in the inner peripheral view of the combustion chamber 4Q, to the heating optimum temperature, open the fuel control valve 25b + oxygen control valve 24D + superheated steam control valve 25 not shown in the figure, Each of them is injected and burned into a theoretical combustion chamber 4Q aiming at one or more theoretical air-fuel ratio ultra-high pressure combustion, as oxygen combustion nozzle 6L fuel injection nozzle 6X multiple combustion, superheated steam 50 heat recovery rocket injection + rocket combustion combustion gas injection nozzle 6Y injection In this case, the forward air is used for the purpose of coalescence such as suction injection, the high-speed counter-rotating compressed air 28a is additionally combusted by the center support on both sides, the theoretical combustion chamber 4Q superheated steam injection nozzle 6A is superheated steam 50 by 200MPa target injection, and the combustion gas 49 In rocket combustion, aiming for space arrival cost of 1 / 500,000, and making 16 orbits of the earth a day in space flight close to zero fuel cost To allow a day trip in processing, aiming at profit margins preeminent world in a variety of space shuttle airplane class, it 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. / The 60000 volumetric power is included, the liquid oxygen production machine 88g air compressor is also added to the theoretical simple simple multistage compressor 3t, and the horizontal all-blade water gravity turbine 8T generator electric drive 1 to multistage simple multistage compression As the heat pump 1G compression of the machine 3t etc., the solar heater 21 solar heating air is compressed to high temperature, and the high pressure high temperature water heating pipe 5H heat recovery is divided and stored in the heat production, 24 to 200 MPa high temperature water 52a to superheated steam 50 Separately stored in warm heat + liquid air 28a cold heat, and as an electric + liquid air cold heat + superheated steam heat supply equipment 3D, liquid oxygen 5K + liquid fuel 1c + hot water 52a is pump compressed in the process of receiving 2 With the aim of 0 MPa, the liquid oxygen control valve 5T + liquid fuel control valve 1K + water control valve 5Q (not shown) is opened and heated to the optimum temperature in the inner periphery of the simple water injection engine 88e theoretical combustion chamber 4Q, respectively. The simple gas engine 88d is driven, and the water suction injection propulsion of the simple water injection engine 88e and the screw 7C rotation of the simple gas engine 88d are propelled. The simple propulsion gas engine 88d exhaust is propelled at the top of the ship bottom, which accelerates natural phenomena in the course of friction-reducing jet propulsion and supplies oxygen, nitrogen, CO2, etc. into the sea, microbial, phytoplankton, seaweed, coral and fish The present invention relates to a technology for various energy conservation cycle coalescence engines and coalescence methods, which increase human food, etc., 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 atmospheric pressure and same volume work capacity kg weight m / sec is a little less than 1/1700 of the horizontal full-blade water gravity turbine 8T power work, The steam velocity is blocked and the stationary vanes with zero output are alternately half-damped with the moving blades, the steam velocity is approaching 1/100, and the seawater temperature is increased by 7 degrees with the total amount of generated heat, and the entire sea surface is The natural phenomenon of temperature rise is impossible, abnormal weather with no upper limit is increased, and the danger of human beings approaching extinction due to heavy rain of seawater around 50 to 100 years is increasing. 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 is obtained. It is expected to generate a huge amount of power generation such as 1700 times power generation in 100 pairs at a height of 500m or more, water resources are enormous, and there are many known by-products when using deep ocean water, The use of seawater makes enormous amounts of distilled water. For example, the water gravity acceleration in the vacuum Mach 30 requires further experiments. The horizontal axis plate 16 facilitates precision assembly, facilitates fully automatic processing including the cylindrical turbine blade group 8A fixed to the cylindrical assembly, and facilitates assembly. Driven by water gravity energy aimed at gravity acceleration acceleration Mach 30 in vacuum, shifted to expanding the use of low-cost electricity with zero fuel cost power generation with a large amount of cheap water resources, solar heating the air with a solar heater 21, Water gravity turbine 8R Fuel cost 0 Power generation Electric drive, 1 to multiple stage simple multistage compressor 3t etc. Heat pump 1G compresses multiple times and recovers heat multiple times, 24 to 200MPa hot water 52a to superheated steam temperature 50 + liquid air cold heat 28a, electricity + liquid air cold heat + superheated steam temperature supply equipment 3D, supplied to the liquid oxygen chamber 5K, storage battery, etc., 1/10 fuel for liquid air driven cars, airplanes and ships for a short time There are backgrounds in which cost driving and 10-times speed driving can be used to achieve space flight, air flotation ships, etc., storage battery driving and electric driving of extremely inexpensive power generation, 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 8T power generation has the background of low fuel cost power generation, and the cost of heating when enormous methane hydrate sleeping in the sea near Japan or permafrost is heated in elementary school science. Zero heating is the best. Therefore, the fuel cost 0 power generation electric drive solar heater 21 is used, and the solar heating air 28a is compressed multiple times by a fuel cost 0 power generation electric drive 1 to multiple-stage simple multistage compressor 3t + liquid oxygen production machine 88g. The recovered heat is recovered, divided into 5 L of cold liquid oxygen and 5 L of liquid nitrogen + hot high-temperature water 52a to superheated steam 50, and in the process of infinite use of heat, for example, superheated steam 50 is applied to methane hydrate under permafrost. Divide into injected methane and water, recover methane with liquid nitrogen-cooled liquid methane, continue superheated steam injection forever, make the methane recovery enclosure grazing at a suitable temperature and with many water droplets, and increase human food use heat Infinitely, aiming to reach 1 / 500,000 in space as a liquid air coalesced car, ship and spacecraft, and speeding up natural phenomena in the ship driving process 2a, microbes, seaweeds and coral The 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.

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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 31 applications including PCT until May 30, 2012, the filing date of Japanese Patent Application No. 2012-122750.

  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 rock expansion earthquake and tsunami 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 the invention that keeps 100% monopoly on the world scale forever, there is a challenge to make the world's most eternal financial surplus with outstanding profitability forever.

Horizontal full blade water gravity turbine 8T Fuel cost 0 Power generation Low cost Electric drive All, heat production by solar heater 21 + 1 to multistage simple multistage compressor 3t + liquid oxygen production machine 88g, electricity + liquid air cold heat + high temperature water -As the superheated steam temperature supply facility 3D, the received liquid oxygen 5K is compressed to a 21/60000 volumetric compression work rate of air compression, and the superheated steam 50 is used as a theoretical combustion chamber 4Q that can easily perform ultrahigh pressure combustion and ultrahigh temperature combustion. Heating enables stoichiometric air-fuel ratio combustion, combined with the existing technical improvement invention as rocket combustion, simple gas engine 88d driven by theoretical combustion chamber 4Q, simple water injection engine 88e, simple injection engine 88f, and vehicles such as automobiles Rotation force drive and jet propulsion drive for ships, ships and airplanes, etc. In ship injection propulsion drive, rapid levitation propulsion and natural phenomenon acceleration 2a with short rocket injection, Supply oxygen, nitrogen, CO2 and so on, increase microorganisms, phytoplankton, seaweeds, corals, fish, etc., increase human food. As a result, we are aiming for a day trip anywhere on the earth and aiming for a small amount of CO2 exhaust in the atmosphere. Make it the best in the world for new jobs, prevent droughts, torrential rains, typhoons, seasonal winds, heavy rains on seawater, and huge earthquakes and tsunamis to prevent global warming and postpone human extinction.

Horizontal type full-blade hydrogravity turbine 8T 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 the same series gear 4D, such as 100 sets, is very great. The cylindrical turbine blade group 8A1 100 types of fully automatic manufacturing of 100 types, the effect of 100 sets manufacturing is very large, the effect of simplifying the structure without the need of a boiler or nuclear reactor is also very large, and a vertical type close to the enumeration of the last moving blade group of existing steam turbines Comparing the total blade hydrogravity turbine 8M power generation with the maximum speed final blade group in the same vacuum drive, the water pressure of 1700 times the volume of water at atmospheric pressure 100 ° C 760mmHg is boiled at an exhaust temperature 29 ° C vacuum degree 30mmHg Is 760 mmHg × 1700 = 30 mmHg × V2 volume water vapor, V2 = 760/30 × 1700 = water 43,000 times volume water vapor, 100 will be 430 times the amount of power generation by volume water power generation. In other words, vertical all-blade water gravity turbine 8P power generation, which is a group of existing steam turbine maximum speed power blades, is much more advantageous at the power generation stage, and 430 times power generation at 1/100 volume water speed of superheated steam. In addition to increasing the amount, the degree of vacuum increase is far superior, and the use of gravitational acceleration in the vacuum is further increased to 43,000 times the power generation amount calculated by one set of 100 pairs, water injection speed Mach 3 × in vacuum Experiments are necessary, such as gravitational acceleration = Mach 30 aiming to further increase the power generation amount by 30 times, but it has the effect of greatly reforming the power generation cost to 1/10 etc. and infinitely increasing the employment of electrical products.

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, etc. Electric power drive is required. Therefore, the fuel cost is 0. Electricity generated by power generation + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D receives liquid oxygen 5K, etc., and the compression work rate of combustion oxygen is 21/60000 volumetric compression work of air compression The theoretical combustion chamber 4Q can drive the simple gas engine 88d, the simple water injection engine 88e, and the simple injection engine 88f most efficiently as the increase of the super high pressure superheated steam 50 by the super high pressure high temperature combustion near the center of the theoretical combustion chamber 4Q. In addition to the effect that the fuel cost can be aimed at 1/10 or 10 times the speed of automobiles, ships, and airplanes, the space arrival cost can be aimed at 1 / 500,000 of existing space rockets, wheels and screws 7C, propeller 7A and rotor blade 7B are driven by a simple gas engine 88d, and a ship, an airplane, an automobile, etc. are driven by a rotational force. The effect of increasing the digestive capacity of medium microorganisms such as CO2 to tens of thousands of times of the forest is great, and phytoplankton, seaweeds, corals, etc. are proliferated, and fish food such as fish is greatly increased in the food chain etc. It prevents desertification, droughts, torrential rains, typhoons, seasonal winds, and earthquake tsunamis, delays the most important human race extinction, and aims to achieve the world's best profit rate.

Airplane drive is fuel cost 0 horizontal full-blade water gravity turbine 8T power generation electric drive, electricity + liquid air cold heat + high temperature water ~ superheated steam temperature supply equipment 3D receives liquid oxygen + high temperature water, inside the theoretical combustion chamber 4Q Optimum heating is performed with a high-temperature water heating pipe 5H around the circumference, the fuel injection nozzle 6X + oxygen injection nozzle 6L is opened, oxygen gas + fuel gas is mixed and ignited near the center, and the fuel in the inner periphery of the theoretical combustion chamber 4Q + Theoretical combustion chamber 4Q that optimally heats the oxygen + high-temperature water heating pipe 5H and superheats it to the super-high-pressure high-temperature superheated steam 50 and the like. The engine 88f is driven and the space arrival cost is aimed at 1 / 500,000 of the existing space rocket, and the effect of aiming for the full use of space with the same fuel cost 10 times injection propulsion output. 100 times the pressure of the machine, 10 times the calorie injection, 1000 times the short time propulsion output aim, propeller flight, rotor blade flight and injection propulsion aiming at low fuel costs in the atmosphere, superheated steam injection speed and combustion gas injection speed are in vacuum Therefore, the mass injection of the existing space rocket on the ground is considered the worst. From the vicinity of the highest flight altitude of the existing aircraft, the injection amount of the high pressure high temperature combustion chamber 5M + high pressure high temperature superheated steam 50 of 24 to 200MPa is increased, It has the effect of aiming for a prime use of space where you can take a day trip anywhere on the planet.

Explanatory drawing of 4C4D of the horizontal type full-blade water gravity turbine 8T (Example 1) Explanatory drawing of 8A9C9B of the horizontal type full blade air gravity turbine 8T (Example 2) Explanatory drawing of the solar heater 21 (Example 3) Explanatory drawing of the liquid oxygen production machine 88g (Example 4) Explanatory drawing of the simple multistage compressor 3t (Example 5) Explanatory drawing of simple gas engine 88d (Example 6) Explanatory drawing of the simple water injection engine 88e (Example 7) Explanatory drawing of the simple injection engine 88f (Example 8) Illustration of simple gas locomotive 7d (Example 9) Explanatory drawing of the simple gas engine ship 7e (Example 10) Explanatory drawing of the simple gas engine airplane 7f (Example 11) Explanatory drawing of the simple water injection engine ship 7G (Example 12) Explanatory drawing of the simple injection engine airplane 7h (Example 13) Explanatory drawing of the rotary wing airplane 7i (Example 14) Explanatory drawing of the rotary wing jet airplane 7j (Example 15)

  The use of gravity acceleration in vacuum for a long period of time is prevented by brainwashing such as existing steam turbine power generation, and one unit of 100 sets 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 are drastically reduced, the bottom bedrock is expanded into earthquakes and tsunamis, and the typhoon, seasonal winds and sea tornadoes in the sea near Japan are increased to about 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, since the invention becomes too large due to a number of fatal defects of the existing technology, 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 8T are omitted. We will try to materialize the invention that omits common sense by explaining with substitute examples.

Fig. 1 Since the horizontal all-blade water gravity turbine 8T power generation aiming at the limit such as Mach 30 drive with gravity acceleration in water + water injection speed, the power generation amount is proportional to kg weight m / sec, so Fig. 2 both sides of cylindrical turbine blade group 8A And repulsive permanent magnets 9B attracting permanent magnets 9C at a plurality of locations such as the center, and the cylindrical turbine blade group 8A side as a ring type inner periphery 1 pole outer periphery 1 pole magnetization, and the turbine outer box 77a side as a ring type inner periphery 2 poles The upper attraction permanent magnet 9C is the lower repulsion permanent magnet 9B, and the weight of the rotating part is made close to 0 by the repulsive force and the attraction force at multiple locations, the bearing load is made close to 0, and the aim is to update the super high speed turbine peripheral speed record. Middle water gravity acceleration Mach 30 Aiming at turbine drive approach, aiming at infinite increase of fixed rotation speed and rotation outer diameter with horizontal axis plate 16 with horizontal axis 16A, one type is manufactured 2 sets, 100 sets of opposed series all Bucket impeller -Bin manufacturing or 200 types of series full blade impeller turbines and bite in series full blade impeller turbines, one set of one type, and 100 to 200 sets vertically each with fully automatic casting and fully automatic processing, etc. 100 units in the highest vertical building height of 828m, and one unit, and water 3E is vertically increased by 828m by the specific material riser 2F. Then, water 3E is injected aiming at Mach 28 injection, gravity acceleration acceleration vacuum acceleration drive is performed, and the cylindrical turbine blade group 8A is rotated in the counter synchronous rotation by the counter synchronous gear 4C, and 100 sets of the same rotational gear 4D is rotated in the same direction and the same direction. Equipped with a gravitational acceleration unit 1g for vacuum acceleration of water in the upper part of the turbine 8R, etc., making mass production easy at low cost and eliminating the need for a boiler or nuclear reactor. The car 4D main shaft is selected and equipped, and the cost of driving power generation more than 100 sets outside the turbine outer box 77a is aimed at 1/10, and the structure is extremely simple and extremely inexpensive. The world's best energy conservation cycle coalescence engine power generation and coalescence method power generation.

The horizontal type full-blade water gravity turbine 8T power generation is set to one unit in the turbine outer box 77a with 100 sets such as the existing highest building 828m vertically, water injection speed by the specific material accelerator 6W + gravity acceleration acceleration in vacuum The horizontal all-blade which is injected into the cylindrical turbine blade group 8A as the aim of 28, and maintains the Mach 28-speed aim by driving the horizontal all-blade water gravity turbine 8T and driving the next turbine to effectively use the head. Water gravity turbine 8T power generation, friction heat cooling and air extractor 51 make it easy to exceed the existing power generation maximum vacuum degree, such as 30 mmHg, use 100 sets for the drop 828 m, compared with the final stage of existing steam turbine power generation, the degree of vacuum is 30 mmHg Compared with 100 turbines of one turbine 8T power generation amount as water of 43,000 times volume of water, 1/1000 volume of water is injected at 1 Mach speed. In becomes 43 × 100 = 4300 times water power generation, experiments will be power generation amount required astronomical magnification to various energy storage cycles combined engine fuel costs 0 extremely inexpensive power.

  The horizontal full blade hydrogravity turbine 8T ultra high speed peripheral power generation shown in FIG. 2 includes repulsive permanent magnets 9B attracting permanent magnets 9C on both sides and the center of the cylindrical turbine blade group 8A, and the cylindrical turbine blade group 8A side is a ring. The inner periphery 1 pole outer periphery 1 pole magnetization, the turbine outer box 77a side is an upper attracting permanent magnet 9C lower repulsion permanent magnet 9B of the ring inner periphery 2 poles, and there are a plurality of locations, and the weight of the rotating part is repulsive or attracted. The bearing load is brought close to 0 by force, aiming to update the super high speed turbine peripheral speed record, the most important configuration in the cylindrical turbine blade group 8A is super water repellency, and the lowest friction loss is the most important. The horizontal shaft 16A is arranged on both sides of the cylindrical turbine blade group 8A so that the water repellent plating 3a is easy to wear and the water repellent coating 3b is easy when the operation is stopped. With one fixed type , Horizontal type full-blade water gravity turbine 8T easy manufacturing, fully automatic machining and precision assembly easy, as much as possible the maximum diameter of experiment is 100 units in vertical 828m, and one unit is manufactured, counter synchronization gear 4C is installed on horizontal axis 16A By providing a horizontal all-blade opposed water-gravity turbine 8T, it is counter-rotating at the same speed synchronous rotation and connected in series and co-rotating gear 4D to be rotated in the same direction and at the same speed, so Or a horizontal all-blade series water gravity turbine 8T or a horizontal all-blade bite-in series water gravity turbine 8T. When producing the maximum amount of distilled water in tropical deserts, etc. As the water 3E injection approached, the specific material accelerator 6W equipped in accordance with the amount of distilled water produced and the amount of cooling of frictional heat vaporized water, the generator 1 on the horizontal shaft 16A and the outside of the turbine outer box 77a At 100 Horizontal power blade hydrogravity with a driving power generation system that makes it extremely easy to construct, makes boilers and nuclear reactors unnecessary, makes manufacturing costs extremely cheap, and makes the operating profit rate unsurpassed in the world, with no fuel consumption and other comparisons. Turbine 8T makes power generation extremely cheap.

The heat production of the solar heater 21 in FIG. 3 is a horizontal full-blade water-gravity turbine 8T fuel cost 0 power generation power generation extremely cheap electric drive, and cheap electricity + liquid air cold heat + superheated steam temperature supply equipment 3D The solar heater 21 has a buoyancy on the water surface or a circular railroad on the flat ground, and the solar heater 21 rotates as a floating device or a land device that maintains and rotates sunlight at a right angle from east to west. A support unit 4f is provided, and a gear unit 4d and a roller 4e are provided. As a cylindrical rotating unit 77G, sunlight is vertically maintained and rotated at right angles, and east and west directions are maintained at right angles by using buoyancy and circular railway. A device that maximizes the air temperature in the heat absorption tube 4H by controlling the rotation of light in two directions at a right angle, collects sunlight with the maximum heat of the earth in a straight line by the rectangular long lens 2d, and closes the focal length to the heat absorption tube Inside 4H The temperature of the air passage 28A air 28a is maximized, the temperature of the external air passage 28A air 28a rises, and the existing lens cross section is linearly extended as a rectangular long lens 2d, so that all the lens materials can be used. The heat insulating material 2c is surrounded by a cylindrical rotating part 77G or the like to form a long cylinder such as a cylinder, the long long lens 2d is a joint 80A + clamp 80B, and the sealed upper part is a 4H external air passage 28A. 1 to multi-stage heat pump 1G is suction-compressed, simple multi-stage compressor 3t or the like is heat pump 1G to 800 to 1200 ° C. multiple times, and 1 to multi-stage compression heat recovery unit 2C repeats heat recovery for each compression, Liquid air 28a cold heat is stored in the liquid oxygen chamber 5K + liquid nitrogen chamber 5L, and 24-400 MPa superheated steam 50 warm heat around 400 ° C. is divided and stored in the high-pressure high-temperature steam chamber 5N. The liquid air cold + superheated steam heat supply equipment 3D using various applications, and the electric drive flourish and battery driven prime, to various thermal utilization prime and various cold use PRIME electrical product.

  The liquid oxygen producing machine 88g, which is long and fast and easy to rotate in the reverse direction with the center support on both sides in FIG. , Aiming at fully automatic mass production, fully automated processing, easy assembly, 1/100 parts count, simple multistage compressor 3t connection aiming, horizontal full blade water gravity turbine 8T fuel cost 0 power generation extremely cheap electric drive, In the case of multi-stage compression, a simple multi-stage compressor 3t is connected and driven, and in the case of single-stage compression, the heat production heated air 28a of the solar heater 21 is recovered by compressing heat to produce water heating isothermal production + rectification tower Preparation of production of liquid oxygen + liquid nitrogen, etc. by cooling the exhaust gas pipe 5h, ultra-high-pressure compressed air 28a is driven to the air turbine 3u by super-high speed injection and counter-rotating to generate a large rotational output, thereby significantly reducing the motor drive power. To the rectification tower In the same way as the existing technology, it is purified to liquid oxygen + liquid nitrogen, etc., and the exhaust gas is supplied to the rectifying tower exhaust pipe 5h, and the liquid oxygen production machine 88g is driven into mass production of continuous heat + cold, electricity + liquid air Supply to cold water + hot water to superheated steam hot water supply facility 3D, for example, in hot heat supply, methane hydrate is recovered to methane hydrate under the seabed or permafrost, and methane recovery under permafrost is provided with a transparent enclosure. As a recovery from the top end of the specific gravity difference utilization, the enclosure is an everlasting greenhouse pasture grazing, aiming at the prime of various heat utilization such as meat production, with liquid oxygen supply the compression work rate is 21/60000 volume of air compression Combined with liquid oxygen drive, simple gas engine 88d drive, simple water injection engine 88e drive and simple injection engine 88f drive, various rotational drives such as automobile drive, ship drive and airplane drive and ultra-high As the injection propulsion drive, in the case of an airplane drive to allow for day trips aim anywhere universe reaching cost 1/50 ten thousand aim on earth, to liquid oxygen production unit 88g.

The simple multi-stage compressor 3t, which is long and fast and easy to reverse by supporting both sides in the center shown in FIG. Aiming for easy manufacturing, fully automatic processing, easy assembly, 1/100 parts count, horizontal full-blade water gravity turbine 8T fuel cost 0 power generation extremely cheap electric drive, liquid oxygen production machine 88g in case of multi-stage compression, etc. And connected driving compression, the solar air heater 21 and the like air heating heat recovery such as air 28a is repeated one or more times, water heating and other superheated steam 50 heat production + compressed air 28a cold heat production is repeated one or more times, In order to mass-produce super high pressure superheated steam 50 warm heat + super high pressure compressed air 28a cold, aiming at 1/10 production cost of the existing liquid oxygen production cost, etc., both sides of the inner shaft device 60A and the outer shaft device 60B are centered. Branch A simple multistage compressor that can handle all conditions by using existing magnetic bearing support, etc., making the bearing load close to 0, enabling a large and large ultra-high speed counter rotating compressor and a micro ultra high speed counter rotating compressor. 3t, the assembling part 9M is a final assembly that protrudes from the compressor outer box 77b as shown in the figure at the time of preceding assembly, with the counter-rotating machine outer box 77C divided into two parts at the horizontal axis 1h. Each of the outer compression blades 8m has a middle annular blade in the fitting assembly portion 9M fitting assembly, and thirdly, the inner compression blade 8k front annular blade has a fitting assembly portion 9M fitting assembly in the center support. The outer compression blade 8m front annular blade is provided with a center support for each of the fitting assembly portions 9M and the fourth compressor outer box 77b is provided with each of the fitting assembly portions 9M. Reversing machine outer box 77C horizontal shaft 1h part In addition, the configuration and assembly are applied to the entire horizontal axis 1h counter-rotating drive, such as 1 to multi-stage simple multi-stage compressor 3t that repeats the 3-stage simple compressor 3s, and the liquid oxygen production machine 88g is connected and driven. .

The simple gas engine 88d, which supports both the center and the both sides in FIG. 5 and facilitates the long high-speed double reversal, can be used as the assembly assembly portion 9M of the simple annular part by making the horizontal axis 1h double reversal. Fully automatic mass production, full automatic processing, easy assembly, aiming at 1/100 parts count, simple multistage compressor 3t connection aiming, horizontal full blade water gravity turbine 8T fuel cost 0 power generation + Liquid air cold heat + High temperature water to superheated steam temperature heat supply equipment 3D compresses liquid oxygen 5K + electricity + high temperature water and compresses liquid oxygen 5K into the theoretical combustion chamber 4Q driven by low-cost electric products. Volumetric work rate is 21/60000 volumetric compression work rate of air compression, liquid oxygen + liquid fuel + high temperature water is compressed and heated to ultra high pressure such as 24-200MPa, and multiple opening / closing valves 1Q are closed to two types of rockets Combustion theory In the firing chamber 4Q, oxygen + fuel injection combustion heated to an optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X is performed, and the fuel + oxygen + superheated steam 50 is heated to the optimum temperature on the inner wall of the theoretical combustion chamber 4Q to achieve the theoretical air-fuel ratio combustion. The existing technology improved theoretical combustion chamber 4Q aims at a 10 times pressure 10 times combustion amount of the high pressure high temperature combustion chamber 5M. In the existing technology improved theoretical combustion chamber 4Q, the theoretical air-fuel ratio combustion amount of the existing technology 4 times fuel is increased by an increased amount of heat. The superheated steam 50 of 200 MPa or the like is injected from the manufacturing superheated steam injection nozzle 6A, and the high-pressure high-temperature combustion chamber 5M having a fourfold combustion amount is sucked and injected by rocket injection. As a simple gas engine 88d close to the existing gas turbine, the compression work A simple gas engine 88d that combines a plurality of liquid oxygen driven theoretical combustion chambers 4Q with a rate of 21/60000 volumetric compression work of air compression and uses even liquid oxygen 0 That.

The case of driving the simple gas engine 88d with 0 liquid oxygen will be explained. The existing jet engine and the stationary vanes of the gas turbine are almost completely abolished, and the inside of the center support on both sides is provided by the counter rotating magnetic device 85 to the counter rotating gear device 85Y. The shaft device 60A + the outer shaft device 60B is counter-rotated and the air 28a sucked from the inlet stationary blade 6G is linearly compressed by the inner compression blade 8k + the outer compression blade 8m, and the counter-rotating linear compression 800-1200 ° C. is increased. A straight compression simple multistage compressor 3t is connected, and the relative speed of the existing gas turbine, etc. is doubled, and the compressed air pressure of the counter-rotating machine outer box 77C is set at a double reversing machine outer box 77C. Compressed air is injected into the theoretical combustion chamber 4Q from 6G, fuel is injected and combusted from the fuel injection nozzle 6X, and superheated steam 50 such as heat recovery 200 MPa is produced in the high-pressure high-temperature water heating pipe 5H. By using the same compressed air amount as a four-fold fuel combustion amount of an existing gas turbine, etc., the superheated steam 50 of 3/4 heat amount or 20 times pressure of the combustion gas 49 is rocket-injected and jointly with the combustion gas 49 The inner output blade 8n + outer output blade 8p is driven in reverse, and the same compressed air amount is aimed at a 10-times injection propulsion output or 10-times rotation output of an existing jet engine or gas turbine. The horizontal shaft 1h or the outer shaft device or The inner shaft device 60A is extended to rotate and drive generators, automobiles, ships, and airplanes. The airplanes and ships are additionally driven by injection with exhaust, and in the case of power generation, the simple gas engine 88d is exhausted. The whole is heat recovered by heat exchange heating air 28a, and the high temperature water 52b of the compressed water injection heat recovery is injected into the high pressure high temperature water heating pipe 5H by the inner compression blade 8k + outer compression blade 8m, and the air 28a is injected into the theoretical combustion chamber 4Q. Burning The power generation is repeated by injection combustion, and the power generation amount is further increased by the combined power generation of the high-temperature air 28a heated by the solar heater 21 in FIG. 11, and the exhaust heat and geothermal heat are similarly converted into the temperature of the air 28a and sucked compressed water jet compressed. Similarly, a simple gas engine 88d with an increased power generation amount is used.

The simple water injection engine 88e, which supports both sides of the center in FIG. 6 and facilitates long and high-speed double reversal, is configured to assemble the compression blades and output blades into a simple annular part fitting assembly portion 9M by double reversing the horizontal axis 1h. , Easy to make fully automatic mass production, fully automatic processing, easy assembly, 1/100 parts count, simple multistage compressor 3t connection aim, horizontal full blade water gravity turbine 8T fuel cost 0 power generation extremely cheap electric production, Compressed liquid oxygen + electricity + hot water from the electricity + liquid air cold heat + hot water to superheated steam hot water supply facility 3D to the theoretical combustion chamber 4Q, etc. driven by cheap electric products, and compresses the liquid oxygen. The volumetric work rate is 21/60000 volumetric compression work rate of air compression, and liquid oxygen + liquid fuel + hot water is compressed and heated to ultrahigh pressure such as 24 to 200 MPa, and the on-off valve 1Q at the multiple inlet / outlet is closed to two types Rocket combustion theory In the chamber 4Q, the oxygen + fuel injection combustion heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X is performed, and the fuel + oxygen + superheated steam 50 is heated to the optimum temperature on the inner wall of the theoretical combustion chamber 4Q to achieve the theoretical air-fuel ratio combustion. Aiming at 10 times the pressure 10 times the combustion amount of the existing technology improved theoretical combustion chamber 4Q high-pressure high-temperature combustion chamber 5M, the theoretical combustion chamber 4Q was closer to 200 MPa than the superheated steam injection nozzle 6A + combustion gas injection nozzle 6Y of the peripheral air 28a suction flow The superheated steam 50 and the high-pressure and high-temperature combustion chamber 5M are injected, the air 28a is sucked and injected, and water is sucked and injected. In the existing technology improved theoretical combustion chamber 4Q, the theoretical air-fuel ratio combustion amount of the fuel four times that of the existing technology increases. Production of superheated steam 50 aiming at 200 MPa in heat quantity Rotational output is generated in the high-pressure high-temperature combustion chamber 5M, and superheated steam 50 is generated from the superheated steam injection nozzle 6A of the suction flow of the outer air 28a The air 52a is sucked and jetted by sucking forward air 28a and sucking and jetting water 52a. As a simple water injection engine 88e close to the existing jet engine, the compression work rate is 21/60000 volume compression work addition of air compression, A simple oxygen injection engine 88e that combines a plurality of liquid oxygen drive theoretical combustion chambers 4Q and uses zero liquid oxygen.

The case of driving the simple water injection engine 88e with liquid oxygen 0 will be explained. The existing jet engine and the stationary blade of the gas turbine are almost completely abolished, and the center of both sides is supported by the counter rotating magnetic device 85 to the counter rotating gear device 85Y. The inner shaft device 60A + outer shaft device 60B is driven in a counter-rotating manner, and the air 28a sucked from the inlet stationary blade 6G is linearly compressed by the inner compression blade 8k + the outer compression blade 8m, and the counter-rotating linear compression simple multistage compressor 3t is connected. The relative speed of the existing gas turbine or the like is twice as high as that of the existing compressed gas pressure or the like, and the compressed air 28a is supplied to the theoretical combustion chamber 4Q from the compressed air injection vane 6G of the contra-rotating outer casing 77C. , The fuel is injected and combusted from the fuel injection nozzle 6X, and the heat recovery superheated steam 50 is made into the production theoretical air-fuel ratio combustion by the high-pressure and high-temperature water heating pipe 5H. The fuel combustion amount and the outer periphery are used as a rocket injection part, and superheated steam 50 of 3/4 heat amount or 20 times pressure of the combustion gas 49 is injected into the rocket outer box 77B. 8p is driven in reverse, with the same compressed air amount, aiming at 15 times injection propulsion output + 5 times rotation output of existing jet engines and gas turbines, equipped with a water suction injection part cylinder, to increase water suction injection speed and air suction amount Thus, the simple water injection engine 88e is used for the jet propulsion drive of the water-injecting vessels.

The simple injection engine 88f, which supports both sides and the center of FIG. 7 and facilitates long and high speed double reversal, can be used as a fitting assembly 9M assembly of a simple annular part by making the horizontal axis 1h double reversal. Fully automatic mass production, full automatic processing, easy assembly, aiming at 1/100 parts count, simple multistage compressor 3t connection aiming, horizontal full blade water gravity turbine 8T fuel cost 0 power generation + Liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D receives liquid oxygen + electricity + high temperature water to the theoretical combustion chamber 4Q, etc. driven by low-cost electric products, and compresses liquid oxygen to compress the volume. A rocket that has a work rate of 21/60000 volume compression of air compression, compresses and heats liquid oxygen + liquid fuel + high-temperature water to ultra-high pressure such as 24 to 200 MPa, and closes the on-off valve 1Q at multiple inlets and exits to two types. Combustion theory combustion 4Q, oxygen + fuel injection combustion heated to an optimal temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, fuel + oxygen + superheated steam 50 is heated to the optimal temperature on the inner wall of the theoretical combustion chamber 4Q, and the theoretical air-fuel ratio combustion is performed. The superheated steam 50 and high pressure approaching 200 MPa from the superheated steam injection nozzle 6A + combustion gas injection nozzle 6Y on the outer periphery of the theoretical combustion chamber 4Q, aiming at 10 times the pressure 10 times the combustion amount of the existing technological improved theoretical combustion chamber 4Q high pressure high temperature combustion chamber 5M. When the on-off valve 1Q is closed, the high-power combustion chamber 5M is injected, and when the on-off valve 1Q is closed, the front air 28a is sucked and injected, and a plurality of theoretical combustion chambers 4Q are liquid-oxygen-driven rockets. The combustion chamber / jet combustion chamber is used, and in the existing technology improved theoretical combustion chamber 4Q, the theoretical air-fuel ratio combustion amount of the fuel four times that of the existing technology is increased by 200 MPa with an increased heat quantity. Steam 50 is produced in the high-pressure and high-temperature combustion chamber 5M. The superheated steam 50 is jetted from the superheated steam jet nozzle 6A with the suction flow of the outer air 28a, and the front air 28a is sucked and jetted to approach the existing jet engine. As the simple injection engine 88f, a combination of a plurality of liquid oxygen drive theoretical combustion chambers 4Q is used, and a simple injection engine 88f that uses even liquid oxygen 0 is used.

The case of driving the simple injection engine 88f with 0 liquid oxygen will be explained. The existing jet engine and the stationary vanes of the gas turbine are almost completely abolished, and the inner sides of both side centers are supported by the counter rotating magnetic device 85 to the counter rotating gear device 85Y. The shaft device 60A + the outer shaft device 60B is driven in a counter-rotating manner, and the air 28a sucked from the inlet stationary blade 6G is linearly compressed by the inner compression blade 8k + the outer compression blade 8m, and the counter-rotating linear compression simple multistage compressor 3t is connected. With the relative speed of the existing gas turbine or the like, the compressed air pressure of 28 a is easily supplied to the theoretical combustion chamber 4Q from the compressed air injection vane 6G of the contra-rotating outer casing 77C. The fuel is injected and burned from the fuel injection nozzle 6X, and the heat recovery superheated steam 50 is made into the production theoretical air-fuel ratio combustion by the high-pressure high-temperature water heating pipe 5H. With the combustion amount of the fuel and the outer periphery as the rocket injection part, the superheated steam 50 of 3/4 heat amount or 20 times pressure of the combustion gas 49 is injected into the rocket outer box 77B, and the inner output blade 8n + outer output blade with the combustion gas 49 8p double reverse drive, aiming at the same compressed air amount 15 times injection propulsion output + 5 times rotation output of existing jet engines and gas turbines, making underwater injection ships and airplanes into injection propulsion drive etc. The engine 88f is selected.

The simple gas engine vehicle 7d in FIG. 8 is an improved invention of the existing micro gas turbine vehicle. The simple gas engine 88d is driven by compressed air + fuel cost 0 power generation electric product drive. 0 Power generation Extremely cheap electricity production, electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D receives liquid oxygen + electricity + high temperature water to the theoretical combustion chamber 4Q etc. driven by cheap electricity products, By compressing liquid oxygen, the compression volume work rate is set to 21/60000 volume compression work rate of air compression, and liquid oxygen + liquid fuel + high temperature water is compressed and heated to ultrahigh pressure such as 24-200 MPa, and multiple inlets are opened and closed. In the rocket combustion theoretical combustion chamber 4Q in which the valve 1Q is closed, oxygen + fuel injection heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X is combusted, and fuel + is added to the inner wall of the theoretical combustion chamber 4Q + Elementary + superheated steam 50 is heated to the optimal temperature, and the theoretical air-fuel ratio combustion is performed, aiming at 10 times the 10 times pressure of the existing high-temperature high-temperature combustion chamber 4Q, and the existing technology improved theoretical combustion chamber 4Q. As a theoretical air-fuel ratio combustion amount of 4 times fuel, a superheated steam 50 of 200 MPa or the like with an increased heat quantity is injected from the production superheated steam injection nozzle 6A, and a high pressure and high temperature combustion chamber 5M aimed at 4 times combustion amount or 40 times combustion by rocket injection. As a simple gas engine 88d close to the existing micro gas turbine, the generator 1 is driven to drive the storage battery driving wheel 4J to the storage battery 1A. Even if it is 0, it is assumed to be a simple gas locomotive car 7d.

The simple gas engine ship 7e in FIG. 9 is an improved invention of an existing gas turbine ship. The simple gas engine 88d is driven by compressed air drive + fuel cost 0 power generation electric product drive. Power generation from electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D, which is extremely low power generation, receives liquid oxygen + electricity + high temperature water to the theoretical combustion chamber 4Q, etc. driven by low cost electric products, and liquid By compressing oxygen, the compression volume work rate is set to 21/60000 volume compression work rate of air compression, and liquid oxygen + liquid fuel + high temperature water is compressed and heated to ultrahigh pressure such as 24 to 200 MPa, and a multiple inlet on-off valve 1Q is closed in the rocket combustion theoretical combustion chamber 4Q, oxygen + fuel injection combustion heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, fuel + oxygen + superheated steam on the inner wall of the theoretical combustion chamber 4Q 50 is heated to the optimum temperature, and the combustion is targeted at the theoretical air-fuel ratio combustion, aiming at 10 times the pressure of the existing high-temperature combustion chamber 4M, and 10 times the combustion amount of the high-temperature high-temperature combustion chamber 5M. As the theoretical air-fuel ratio combustion amount, superheated steam 50 with an increased heat quantity of 200 MPa or the like is injected from the manufactured superheated steam injection nozzle 6A, and the high-pressure and high-temperature combustion chamber 5M is sucked and injected by rocket injection aiming at 4 times combustion amount or 40 times combustion. As a simple gas engine ship 7e that is close to an existing gas turbine ship, rocket combustion that can produce a 10 times output as the lowest friction loss by injecting screw 7C drive exhaust to the top bottom of the ship with the rotational output of the simple gas engine 88d As a combination of a plurality of liquid oxygen driven theoretical combustion chambers 4Q, which makes rapid levitation and glide approach, saves fuel oxygen by reducing friction loss extremely, with liquid oxygen 0 And simple gas engine vessels 7e to be used.

The simple gas engine plane 7f of FIG. 10 is an improved invention of an existing jet aircraft. The simple gas engine 88d is driven by compressed air + fuel cost 0 power generation electric product drive, and is a horizontal full-blade water gravity turbine 8T fuel cost 0 power generation extreme. Low-cost electric manufacturing, from the electric + liquid air cold heat + high temperature water to superheated steam temperature supply equipment 3D, the liquid combustion oxygen + electricity + high temperature water is supplied to the theoretical combustion chamber 4Q, etc. driven by low-cost electric products, and liquid oxygen is supplied By compressing, the compression volume work rate is set to 21/60000 volume compression work rate of air compression, and liquid oxygen + liquid fuel + high temperature water is compressed and heated to an ultrahigh pressure such as 24 to 200 MPa, and the on-off valve 1Q with multiple inlets is set. In the closed rocket combustion theoretical combustion chamber 4Q, the oxygen + fuel injection combustion heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, and fuel + oxygen + superheated steam on the inner wall of the theoretical combustion chamber 4Q Heating the air to the optimal temperature with the ideal air-fuel ratio combustion at 0, aiming for a 10-fold pressure and 10-fold combustion amount of the existing high-tech combustion chamber 4Q high-pressure high-temperature combustion chamber 5M. As the theoretical air-fuel ratio combustion amount, the superheated steam 50 of 200 MPa or the like with an increased heat quantity is injected from the production superheated steam injection nozzle 6A, and the high-pressure and high-temperature combustion chamber 5M aiming at the 4-fold combustion amount or 40-fold combustion by exhaust injection or rocket injection. As a simple gas engine airplane 7f that is suction-injected and brought close to an existing jet aircraft, the propeller 7A drive exhaust is injected backward with the rotational output of the simple gas engine 88d, and the liquid is converted into rocket combustion + jet combustion capable of 10 times output, etc. As a combination of a plurality of oxygen-driven theoretical combustion chambers 4Q, a simple gas engine airplane 7f that flies even with a space flight aim or liquid oxygen 0 is assumed.

The simple water injection engine ship 7G in FIG. 11 is an improved invention of the existing gas turbine ship. The simple injection engine 88e is driven by compressed air + fuel cost 0, and power generation electric product drive. 0 Power generation Extremely cheap electricity production, electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D receives liquid oxygen + electricity + high temperature water to the theoretical combustion chamber 4Q etc. driven by cheap electricity products, By compressing liquid oxygen, the compression volumetric power is made to be 21/60000 volumetric compression work of air compression, and liquid oxygen + liquid fuel + high temperature water is compressed and heated to ultrahigh pressure such as 24 to 200 MPa. In the rocket combustion theoretical combustion chamber 4Q in which the on-off valve 1Q is closed, oxygen + fuel injection is heated to an optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, and fuel + oxygen is heated on the inner wall of the theoretical combustion chamber 4Q. The superheated steam 50 is heated to the optimum temperature and the theoretical air-fuel ratio combustion is performed, and the existing technology improved theoretical combustion chamber 4Q high pressure and high temperature combustion chamber 5M is aimed at 10 times the pressure 10 times the combustion amount, and the superheated steam injection nozzle 6A + combustion on the outer periphery of the theoretical combustion chamber 4Q From the gas injection nozzle 6Y, the superheated steam 50 or the high-pressure high-temperature combustion chamber 5M approaching 200 MPa is injected, the high-pressure rocket combustion is performed when the on-off valve 1Q is closed, and the front air 28a is sucked and injected when the on-off valve 1Q is opened. The plurality of theoretical combustion chambers 4Q are liquid oxygen-driven rocket combustion chambers and jet combustion chambers. In the existing technology improved theoretical combustion chamber 4Q, as the theoretical air-fuel ratio combustion amount of four times the fuel of the existing technology, the superheated steam 50 is aimed at 200 MPa with an increased heat amount. Rotational output is generated in the production high-pressure high-temperature combustion chamber 5M, and the superheated steam 50 is injected from the superheated steam injection nozzle 6A of the suction flow of the outer peripheral air 28a. As a simple water injection engine 88e driven close to an existing jet engine, the plane speed is obtained by combining a plurality of the liquid oxygen drive theoretical combustion chambers 4Q, and even if liquid oxygen is 0, simple water that moves at ultra high speed Let it be a jet engine ship 7G.

The simple injection engine airplane 7h in FIG. 12 is an improved invention of the existing jet aircraft. The simple injection engine 88e is driven by compressed air + fuel cost 0 power generation electric product drive. Low-cost electric manufacturing, from the electric + liquid air cold heat + high temperature water to superheated steam temperature supply equipment 3D, the liquid combustion oxygen + electricity + high temperature water is supplied to the theoretical combustion chamber 4Q, etc. driven by low-cost electric products, and liquid oxygen is supplied By compressing, the compression volume work rate is set to 21/60000 volume compression work rate of air compression, and liquid oxygen + liquid fuel + high temperature water is compressed and heated to an ultrahigh pressure such as 24 to 200 MPa, and the multiple inlet / outlet on-off valve 1Q In the rocket combustion theoretical combustion chamber 4Q closed with oxygen + fuel injection combustion heated to an optimal temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, and fuel + oxygen + superheat on the inner wall of the theoretical combustion chamber 4Q The air 50 is heated to the optimum temperature and the theoretical air-fuel ratio combustion is performed, and the existing technology improved theoretical combustion chamber 4Q high pressure and high temperature combustion chamber 5M is aimed at 10 times the pressure 10 times the combustion amount. From the injection nozzle 6Y, the superheated steam 50 and the high-pressure high-temperature combustion chamber 5M approaching 200 MPa are injected, and when the on-off valve 1Q is closed, the high-power rocket combustion space utilization is primed. Then, a plurality of theoretical combustion chambers 4Q are used as rocket combustion chambers and jet combustion chambers driven by liquid oxygen, and in the existing technology improved theoretical combustion chamber 4Q, the theoretical air-fuel ratio combustion amount of the fuel four times that of the existing technology is overheated by 200 MPa with an increased heat amount Steam 50 is produced in the high-pressure and high-temperature combustion chamber 5M. As a simple injection engine 88f driven near the existing jet engine by sucking and injecting the air 28a, the liquid oxygen drive theoretical combustion chamber 4Q is combined with a plurality of space arrival costs, aiming at 1 / 500,000 of the existing technology, and liquid oxygen is 0 in the atmosphere Thus, a simple injection engine airplane 7h that is driven by high-speed flight or driven by the propeller 7A by extending the inner shaft device 60A depending on the application.

The rotary wing airplane 7i of FIG. 14 is an improved invention of an existing rotary wing aircraft. The simple gas engine 88d is driven by compressed air + fuel cost 0 power generation electric product drive. Liquid oxygen + electricity + high temperature water is supplied to the theoretical combustion chamber 4Q, etc. driven by an inexpensive electric product from the electricity + liquid air cold heat + hot water to superheated steam temperature heat supply facility 3D, which is extremely inexpensive electric manufacture, and liquid oxygen Is compressed to 21/60000 volumetric compression work rate of air compression, liquid oxygen + liquid fuel + high temperature water is compressed and heated to ultrahigh pressure such as 24 to 200 MPa, and a multiple inlet on-off valve 1Q In the rocket combustion theoretical combustion chamber 4Q closed with oxygen + fuel injection combustion heated to an optimal temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, and the fuel + oxygen + superheated steam 50 is made the most on the inner wall of the theoretical combustion chamber 4Q. The temperature is heated to the theoretical air-fuel ratio combustion, and the compressed air combustion theoretical combustion chamber 4Q is aimed at 10 times the pressure 10 times the combustion amount of the high pressure high temperature combustion chamber 5M, and the compressed air combustion theoretical combustion chamber 4Q is four times the heat exchange cooling air existing technology. As the theoretical air-fuel ratio combustion of fuel combustion, superheated steam 50 of 200 MPa or the like is manufactured with an increased triple heat quantity, injected from superheated steam injection nozzle 6A, and four times the combustion quantity or 40 times the target high pressure by exhaust injection or rocket injection As a rotary wing airplane 7j that is injected into a high-temperature combustion chamber 5M and is close to an existing rotary wing aircraft, the rotational output of the simple gas engine 88d is used to drive the rotary blade 7B and the rotational force + injection is propelled, and the outer shaft device 60B or the inner shaft. Compressed air + liquid oxygen driven theoretical combustion chamber 4Q that drives device 60A extension rotor blade 7B to make rocket combustion + jet combustion + rotation output + injection propulsion output capable of 10 times output etc. As the number of coalescing, and rotary-wing aircraft 7i to fly even space flight aim and liquid oxygen 0.

A rotary blade injection airplane 7j in FIG. 15 is an improved invention simple injection engine 88e of an existing rotary blade aircraft in which compressed air drive + fuel cost 0 power generation electric product drive is used. Power generation from electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D, which is extremely low power generation, receives liquid oxygen + electricity + high temperature water to the theoretical combustion chamber 4Q, etc. driven by low cost electric products, and liquid By compressing oxygen, the compression volume work rate is made to be 21/60000 volume compression work rate of air compression, and liquid oxygen + liquid fuel + high temperature water is compressed and heated to ultrahigh pressure such as 24 to 200 MPa to open and close multiple inlets and outlets In the rocket combustion theoretical combustion chamber 4Q with the valve 1Q closed, oxygen + fuel injection combustion heated to an optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X and fuel + oxygen + superheated steam on the inner wall of the theoretical combustion chamber 4Q The theoretical air combustion ratio of the compressed air combustion is set to 10 times the pressure of the combustion chamber 4Q of the high pressure and high temperature combustion chamber 5M, and the superheated steam injection nozzle 6A + combustion gas on the outer periphery of the theoretical combustion chamber 4Q. From the injection nozzle 6Y, superheated steam 50 approaching 200MPa or high-pressure high-temperature combustion chamber 5M is injected. When the on-off valve 1Q is closed, the high-power rocket combustion space is primed. Injected by combustion, etc., multiple theoretical combustion chambers 4Q are made into rocket combustion chambers and jet combustion chambers driven by liquid oxygen, and compressed air combustion theoretical combustion chamber 4Q is increased three times as the theoretical air-fuel ratio combustion of four times the fuel of the existing technology The superheated steam 50 is produced with a heat quantity of 200 MPa, and the rotational output is generated by the high-pressure, high-temperature combustion chamber 5M combustion gas injection, from the superheated steam injection nozzle 6A of the suction flow of the outer air 28a. As a simple injection engine 88f driven close to the existing jet engine by injecting the hot steam 50 and sucking forward air 28a, the liquid oxygen drive theoretical combustion chamber 4Q is combined into a plurality of space arrival costs 1/50 of the existing technology. Assuming all targets, flight is performed with zero liquid oxygen in the atmosphere, or the outer shaft device 60B or the inner shaft device 60A is extended to the rotary blade 7B to obtain a rotary blade jet airplane 7j with rotational output + injection propulsion output drive.

Compared with the existing pumped storage power generation, the horizontal full-blade water gravity turbine 8T power generation aiming at a resource price of 0 fuel cost of 0 power generation less than 1/2 of the nuclear power generation will be explained. Gravity acceleration in vacuum is added to jet speed Mach 3 or higher, and work rate is proportional to speed + proportional to height, so water jet speed Mach 3 or higher + gravity acceleration in vacuum = Mach 30, etc. , 100 times vertical speed 1/100 mass vertical water drive + 1 h double axis reversal drive, maximum power of 9.8 m / s in gravity acceleration in vacuum, 200 sets vertical to world's highest building height of 828 m There is a possibility of extremely low-priced power generation with a horizontal full-blade hydrogravity turbine 8T power generation that has one power generation and has the same amount of water generation 200 times that of the existing pumped storage power generation.

In the process of comparative explanation of horizontal full-blade hydrogravity turbine 8T power generation with existing thermal power nuclear steam turbine power generation aiming at less than 1/2 of nuclear power generation cost of resource price 0 fuel cost 0 power generation, atmospheric pressure 100 ° C 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. 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 8T power generation Extremely inexpensive power generation as an electric product prime, electricity + liquid air cold heat + superheated steam temperature supply equipment 3D receives superheated steam to methane hydrate under the seabed or permafrost land Injecting enclosures provide methane recovery, pasture grazing conversion in permafrost areas, superheated steam injection in oil sands, oil shale, and aging oil collection areas, and vaporization, recovery, liquefaction storage, etc. 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 type full-blade water gravity turbine 8T power generation Extremely inexpensive power generation as an electric product prime, receiving liquid oxygen 5K from electricity + liquid air cold heat + superheated steam temperature supply equipment 3D, liquid oxygen drive and normal drive combined drive To make a simple gas engine 88d, a simple water injection engine 88e, and a simple injection engine 88f by compressing liquid oxygen 5K into a liquid compression work rate of 21/60000 volume compression work. Driving, there is a possibility that CO2 exhaust and fuel costs will be close to 1/10 in a car, a ship may be close to 10 times the speed with the same fuel cost, and an airplane will have a space arrival cost of 1 / 500,000, etc. There is a possibility of making a major revolution in the use of cold energy, such as making day trips anywhere on the planet as a prime use of space.

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 Gravity acceleration in vacuum Accelerated gravitational acceleration and conversion of generated energy 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 energy is air temperature, heat pump (various air compressors) multiple times 1K: Liquid fuel control valve, 1L: Fuel heating pipe, 1Q: On-off valve, 1Y: Multistage combustion chamber, 1b: Fuel (Liquid fuel + liquefaction) 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: Force accelerating unit, 1h: Horizontal axis (axis that alternates rotation direction of outer shaft device and inner shaft device) 1J: Fuel control valve, 1K: Liquid fuel control valve, 2: Solar heater (Solar light with long lens) 2a: Acceleration of natural phenomena (When the leftover food, which has almost zero change in the air, moves to a nearby river, the amount of microorganisms that approach zero will increase overnight.) 2a: Acceleration of natural phenomena (In power generation, cold water 28a is mixed with seawater. The natural phenomenon is accelerated. The seawater is supplied to the sea. Nutrients such as nitrogen, oxygen and CO2 are supplied. Microorganisms increase and foods such as fish and kombu increase. (Equipment) 2a: Acceleration of natural phenomena (ships supply nutrients such as nitrogen, oxygen and CO2 into the sea, aiming for the digestive ability of microorganisms tens of thousands of times in the forest, phytoplankton, seaweed, etc. by breeding food chains, etc. Increasing human food) b: Slight water resistance (low-speed injection of air, combustion gas, superheated steam, etc. to the bottom of the ship to reduce water resistance) 2c: Insulating material, 2d: Long lens (Convex lens cross-section is linearly extended rectangle, multiple use 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 pump with heat energy as air temperature) 2): Specific critical substances (including alloys, platinum spheres, gold spheres, tungsten alloy powder sintered spheres, silver spheres, copper) Spheres, tin spheres, lead spheres, zinc spheres, aluminum spheres, indium, cadmium, gallium, thallium, bismuth, etc. 2E: Specific material (coated platinum alloy ball, coated gold alloy ball, coated tungsten alloy powder sintered ball with silicon resin coating or silicon resin coating)・ Coated silver 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 2H: Cold and hot seawater mixer, 2X: Air heat exchanger 2Y: Compressed air heat exchanger (liquid air cold heat + heat production) 2Z: Specific critical material heat exchanger (used for temperature control of liquid metal below 500 degrees) 3a: water repellent plating, 3s: simple compressor, 3t: simple multistage compressor, 3u: air turbine, 3A: water repellent coating, 3B: water pressure reciprocating engine, 3D: electricity + liquid air cold heat + superheated steam heat Supply equipment (Cryogenic power + cold production with gravity power generation, supply liquid oxygen and liquid nitrogen, drive automobiles, ships and airplanes, supply with superheated steam, recover methane injected into methane hydrate, etc.) 3E: Specific critical substances (specific critical liquids such as mercury and water at room temperature) 3E: Specific critical substances (liquid low-melting-point alloys of liquids up to 500 degrees and stable high-temperature liquid alloys) 3F: Oxygen pressure reciprocating engine 3G: Theoretical combustion gear engine 3H: reciprocating piston, 3J: theoretical combustion reciprocating engine, 3K: external gear, 3L: multistage combustion chamber, 3M: steam pressure reciprocating engine, 3N: steam pressure gear engine, 3P: theoretical expansion engine (gas volume is pressure) 3Q: Theoretical expansion engine (best engine + aiming for the highest acceleration drive in vacuum) 3R: Theoretical gas turbine (the gas 3S: Theoretical steam turbine (theoretical best steam turbine for inversely proportional to pressure) 3T: Theoretical gas compressor (Theoretical best for gas volume inversely proportional to pressure) 3U: Theoretical turbine, 3V: Pump engine (uses existing pumps in the engine) 3X: Compressor engine (uses existing compressors in the engine) 3Y: Counter-rotating engine (gas volume to pressure) 3Z: Oxygen pressure gear engine, 3a: Water repellent plating, 3b: Water repellent coating, 4C: Opposite synchronous gear, 4D: In-line rotating gear, 4F: Combustion gas reciprocating engine, 4H: Heat absorption pipe ( 4J: Storage battery drive wheels, 4K: Theoretical expansion engine Automobile, 4Q: Theoretical combustion chamber (theoretical air-fuel ratio combustion in the production of superheated steam, combustion chamber aiming at the existing 4-fold combustion amount and 20-times pressure superheated steam injection), 4W: Theoretical compression chamber, 4Y: Theoretical combustion chamber (in the steam 4Z: Combustion gas gear engine, 4X: Turbine blade cross section (increase cross-sectional area to increase surface area) 4a: Liquid fuel pump, 4b: Liquid oxygen pump 4c: Water pump, 4d: Gear device, 4e: Roller, 4f: Rotation support, 5: Air injection nozzle, 5a: High-pressure high-temperature combustion gas control valve, 5b: Compression intake air path, 5d: Combustion flow inner wall, 5e : Ultra high pressure oxygen, 5h: Rectification tower exhaust pipe, 5A: Supply valve, 5B: Cooling fin, 5C: Exhaust chamber 5D: Exhaust valve 5E: Supply chamber 5F: Oxygen heating tube, 5G: Steam heating tube, 5G : High pressure and high temperature water heating 5H: High pressure high temperature water heating pipe, 5H: High pressure high temperature superheated steam pipe, 5K: Liquid oxygen, 5K: Liquid oxygen chamber, 5L: Liquid nitrogen, 5L: Liquid nitrogen chamber, 5M: High pressure high temperature combustion chamber, 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, 5R: superheated steam control valve, 5S: compressed air heating pipe, 5T: liquid oxygen control valve , 6: final compression blade, 6A: superheated steam rocket nozzle, 6B: compressed air injection nozzle, 6E: specific material injection nozzle, 6F: water injection nozzle, 6G: stationary blade, 6H: drain pipe, 6L: oxygen injection nozzle 6W: Specific critical material accelerator (Liquid specific critical material 3E pressure and specific gravity difference utilizing specific gravity difference 3E or 2E mixed injection) 6X: Fuel injection nozzle, 6X: Afterburner (fuel injection cold heat 2 to suction air flow) a Combustion combined with the combustion flow 6Y and rising in space due to a large increase in the amount of fuel combustion) 6Y: Combustion gas injection nozzle (cooling 28a combustion flow) 6Z: Steam injection nozzle, 7A: Propeller, 7B: Rotary blade, 7C: Screw, 7D : Simple gas engine vehicle, 7E: Simple gas engine ship, 7F: Simple gas engine airplane, 7G: Simple water injection engine ship, 7H: Simple injection engine airplane, 7d: Simple gas engine automobile, 7e: Simple gas engine ship, 7f : Simple gas engine airplane, 7g: Simple water injection engine ship, 7h: Simple injection engine airplane, 7i: Rotary blade airplane, 7j: Rotary blade injection airplane, 8c: Turbine blade 8d: Upper expansion blade group, 8e: Lower expansion blade group, 8f: Assembly turbine blade group, 8g: Upper compression blade group, 8h Lower compression blade group, 8j: assembly compression blade group, 8k: inner compression blade, 8m: outer compression blade, 8n: inner output blade, 8p: outer output blade, 8A: cylindrical turbine blade group (as horizontal cylindrical turbine blade group) 8R: Horizontal full blade turbine (opposite full blade pusher turbine series full blade pusher turbine turbine biting full blade pusher turbine) 8R: Horizontal full blade turbine (straight on cylindrical outer surface) 8R: Horizontal type moving blade hydrogravity turbine (existing steam turbine is a stationary blade and the damming output approaches 0), all moving blades are indispensable. 8M: Vertical type moving blade water gravity turbine (6 types of cylindrical turbine blades) Mating assembly + Magnetic bearing load 0 8N: Vertical type moving blade ratio critical material gravity turbine (6 types of cylindrical turbine moving blade group fitting assembly + magnetic utilization bearing load approaching 0) 8R: Horizontal type full moving blade water gravity turbine (cylindrical turbine) 8S: Horizontal full blade ratio critical material gravity turbine (cylindrical turbine blade group series opposed synchronous rotation + magnetic utilization bearing load approach 0) 8P: saddle type Total blade hydrogravity turbine (6 types of cylindrical turbine blade group fitting assembly + magnetic bearing load approach 0 + super high speed peripheral speed) 8Q: vertical type full blade ratio material gravity turbine (6 types of cylinder) Turbine blade group fitting assembly + Magnetic bearing load 0 approach + Ultra high speed peripheral speed) 8T: Horizontal full blade hydrogravity turbine (cylindrical turbine blade group series opposed synchronous rotation + magnetic bearing load 0 approach + super high speed) Set to peripheral speed 8U: Horizontal all-blade ratio critical material gravity turbine (cylindrical turbine blade group serially opposed synchronous rotation + magnetic bearing load approach 0 + super high speed peripheral speed) 9: Wear resistant annular assembly (specific material flow including 8c) 9A: Cylindrical ring assembly (wear-resistant cylindrical ring assembly with 6 types of moving blade groups, simple structure, few parts, fully automatic machining, etc. 9A: Cylindrical annular assembly (Cylinder outer blade group 60D is configured by fitting inlet fixed outer blade 60E + outer annular blade 60G + outlet fixed outer blade 60J, and fixed inlet inner blade 60F + inner annular) 9B: Repulsion permanent magnet, 9C: Suction permanent magnet, 9D: Compressed air part, 9E: Vacuum part, 9M: Mating assembly Part, 9Q: Straight parallel plates (vertical parallel plates that guide the blast air to the storage stern) 10: Hull, 10A: Cabin, 10b: Cockpit, 10c: Control room, 10d: Cabin, 10e: Cargo compartment, 16: Horizontal shaft ( 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 control valve, 25: superheated steam control valve, 25b: fuel control valve, 25c: fuel pipe, 28a: air, 28a: cold heat (compressed air 28a is compressed by a heat pump, and superheated steam 50 is compressed air heat. 28b: Compressed air calorie, 28A: Intake air passage, 28B: Air passage inlet, 38: Rotating guide, 38a: Flight trunk, 38b: Flying wing , 38c: Flying tail, 38d: Vertical wing, 38e: Front wing center, 38g: Water wing, 38h: Levitation boat, 38B: Air suction jet ship (with 79S79T79Y79Z) 38C: Water suction jet ship (with 79U79X) 38H: Theory Screw ship, 38J: theoretical jet ship, 38T: theoretical jet airplane, 38U: theoretical propeller airplane, 39A: solar thermal gravity airplane, 39B: solar thermal gravity rotating airplane, 39C: solar thermal gravity helicopter, 39D: screw ship, 39G: solar thermal gravity flight Ship, 39H: Oxygen coalescence screw 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 Rotor plane, 39Q Oxygen coalescence screw ship, 39R: Oxygen coalescence injection ship, 39S: Oxygen coalescence screw injection ship, 39T: Oxygen coalescence injection airplane, 39U: Oxygen coalescence propeller airplane, 40A: Rudder, 49: Combustion gas, 50: Superheated steam, 50: Superheated steam chamber, 50: Warmth (compressed air 28a is compressed with a heat pump and divided into 50 warm heat of compressed air heat + compressed air 28a cold heat) 50A: Steam, 50a: Superheated steam injection pipe, 51: Air extractor 51: Confluence extractor (extractor for joining) 51A: Air extraction chamber 52a: High temperature water 52a: Deep sea water 52b: High temperature water 52d: Hot water (change from 50) 52e: Cold heat (change from 28a) 55B: Transmission, 60A: Inner shaft device (equipment with turbine blades) 60B: Outer shaft device (equipment with turbine blades) 60C: Circle Inner rotor blade group (Fully automatic machining easy assembly including wear-resistant cylindrical annular assembly fixed rotor blade group) 60D: Cylindrical outer blade group (Fully automatic machining easy including wear-resistant cylindrical annular assembly fixed rotor blade group) 60E: Entrance fixed outer wing (inlet wing for annular assembly fixing outer blade group) 60F: Entrance fixed inner wing (inlet wing for annular assembly fixing inner blade group) 60G: Outer annular blade (outer side) 60H: Inner annular blade (intermediate blade for annular assembly of inner rotor blade group) 60J: Outlet fixed outer blade (exit blade for annular assembly fixing of outer rotor blade group) 60K: Outlet fixed Inner wing (exit wing for annular assembly fixing inner rotor blade group) 76: Gear device (including magnetic friction power transmission device) 77B: Rocket outer box, 77C: Counter-reversing machine outer box, 77F: Injection section outer box, 77G: Cylindrical rotating part, 77a: Turbine outer box, 7b: compressor outer box, 80: bearing (including magnetic bearing + air bearing) 80a: thrust bearing (including magnetic bearing + air bearing) 80A: joint, 80B: fastener, 80Y: liquid air suction water jet (high pressure and high temperature) The combustion chamber 5M receives the high-pressure and high-temperature steam chamber 5N, and injects and burns the fuel 5M several times, heats and sprays 5N from the inner periphery and the inner periphery, and sucks and injects water by air suction and injection) 80Z : Liquid air suction water jet (High pressure / high temperature combustion chamber 5M receiving high pressure / high temperature steam chamber 5N, fuel injection / combustion multiple times to 5M, 5N heated and sprayed multiple times from inner and outer peripheries, air suction flow Fuel injection / combustion injection at multiple locations, air suction injection and water suction injection) 84: Counter-rotating magnetic friction device (with fixed part, rotating inner blade group and outer blade group at substantially the same speed and opposite rotation) 84Y: Double Reversing gear device (same as in existing technology) 85: Double reversing magnetic device (magnet using gear height is slight to non-contact and reciprocally rotated by a horizontal shaft 1h gear) 85Y: Double reversing gear device (existing transverse gear) 88a: simple gas engine, 88b: simple injection engine, 88c: simple water injection engine, 88d: simple gas engine, 88f: simple injection engine, 88e: simple water injection engine, 88g: Liquid oxygen production machine, 88A: Oxygen combined air injection unit (rocket combustion + jet combustion + steam injection and combined injection) 88B: Oxygen combined air injection unit (ultra-high pressure rocket combustion + jet combustion + superheated steam injection suction) 88C: Theory Air injection unit, 88M: theoretical water injection unit, 88K: oxygen combined water injection unit (rocket injection + jet combustion + steam injection etc. combined injection) 88L: oxygen combination Injector (ultra-high pressure rocket combustion + jet combustion + superheated steam injection suction) 95a: combustion gas reservoir, 95b: compressed air reservoir, 95c: superheated steam reservoir, 103: cold heat recovery unit,

Claims (417)

  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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Combined engine of horizontal type full-blade hydrogravity turbine (8T) 1-20 sets generating electric product drive with ultra-high speed circumferential speed + double-side center support counter-rotating compressed air (28a) drive And coalescing method.   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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Horizontal type full-blade hydrogravity turbine (8T) 21 to 40 sets driven by electric power generation with super high speed circumferential speed + Combined engine of various energy conservation cycles to combine both-side center support counter-rotating compressed air (28a) drive And coalescing method.   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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Horizontal all-blade water gravity turbine (8T) 41-60 sets generating electric product drive with ultra-high speed circumferential speed + Double-side center support counter rotating compressed air (28a) drive combined Various energy conservation cycle combined engine And coalescing method.   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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Horizontal type full-blade hydrogravity turbine (8T) 61-80 sets of power generation electrical product drive with ultra-high speed circumferential speed + Double-side center support counter rotating compressed air (28a) drive combined Various energy conservation cycle coalescence engine And coalescing method.   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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Horizontal type full-blade hydrogravity turbine (8T) 81-100 sets generating electric product drive with super high speed circumferential speed + Double energy support cycle coalescing engine combined with center-supported counter-rotating compressed air (28a) drive And coalescing method.   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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Various energy storage cycle coalescing engines combined into a horizontal all-blade water gravity turbine (8T) 101-120 generator electric product drive with ultra-high speed circumferential speed + double-side center support counter-rotating compressed air (28a) drive; Merge method.   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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Horizontal type full-blade hydrogravity turbine (8T) 121-140 sets driven by ultra-high-speed circumferential speed 121-140 sets of power generation electric product drive + Double-side center support counter-rotating compressed air (28a) drive combined Various energy conservation cycle combined engine And coalescing method.   A horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) by 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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Horizontal all-blade hydrogravity turbine (8T) 141 to 160 sets driven by ultra-high speed circumferential speed 141-160 power generation electric product drive + Double-side center support counter rotating compressed air (28a) drive combined Various energy conservation cycle coalescence engine And coalescing method.   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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Horizontal type full-blade hydrogravity turbine (8T) 161-180 sets driven by electric power product with ultra-high speed circumferential speed + Combined engine of various energy conservation cycles to combine both-side center support counter-rotating compressed air (28a) drive And coalescing method.   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, and a series rotation gear (4D) between the horizontal axes (16A), and a pair of vertical rotations in the same direction at the same speed rotation. + Combined engine of horizontal full-blade hydrogravity turbine (8T) 181 to 200 sets of power generation electric product driving with super high speed circumferential speed + double-side center support counter-rotating compressed air (28a) driving combined And coalescing method.   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 ˜30 injection using magnetic bearing load approaching 0 + super-high-speed circumferential speed hydro-gravity turbine (8T) 1 to 20 sets of power generation electric product drive + reversed compressed air (28a) ) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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 ˜30 injection using magnetic bearing load approaching 0 + ultra-high-speed circumferential speed horizontal blade hydrogravity turbine (8T) 21 to 40 sets of power generation electric product drive + both center support counter-rotating compressed air (28a) ) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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 ˜30 injection using magnetic bearing load approaching zero + ultra-high speed circumferential speed horizontal blade hydrogravity turbine (8T) 41-60 sets generator electric product drive + both center support counter-rotating compressed air (28a) ) Various energy conservation cycle coalescence engines and coalescence methods for driving coalescence.   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 ˜30 jetting driven magnetic bearing load approaching 0 + ultra-high speed circumferential speed horizontal blade hydrogravity turbine (8T) 61-80 sets power generation electric product drive + both center support counter-rotating compressed air (28a) ) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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 ˜30 injection-driven magnetic bearing load approaching 0 + ultra-high-speed circumferential speed horizontal blade hydrogravity turbine (8T) 81-100 sets generator electric product drive + both center support counter-rotating compressed air (28a) ) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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 ˜30 injection-driven magnetic bearing load approaching 0 + ultra-high speed circumferential horizontal blade hydrogravity turbine (8T) 101-120 generator electric product drive + both center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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 ˜30 injection-driven magnetic bearing load approaching 0 + ultra-high speed circumferential speed full-scale blade hydrogravity turbine (8T) 121-140 set power generation electric product drive + both center support counter-rotating compressed air (28a) ) Various energy conservation cycle coalescence engines and coalescence methods for driving coalescence.   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 ˜30 injection using magnetic bearing load approaching 0 + ultra-high speed circumferential speed full-blade hydrogravity turbine (8T) 141-160 power generation electric product drive + both center support counter-rotating compressed air (28a) ) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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 ˜30 jetting drive using magnetic bearing load approaching zero + ultra-high speed circumferential speed full-blade hydrogravity turbine (8T) 161-180 power generation electric product drive + both center support counter-rotating compressed air (28a) ) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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 ˜30 injection-driven magnetic bearing load approaching 0 + ultra-high speed circumferential speed horizontal blade hydrogravity turbine (8T) 181 to 200 sets of power generation electric product drive + both center support counter-rotating compressed air (28a) ) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to use magnetically driven bearings to drive jets + approaching a horizontal full-blade hydrogravity turbine (8T) 1 to 20 sets of ultra-high-speed circumferential speed + both-center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to use magnetically driven bearings to drive jets + approaching horizontal full-blade hydrogravity turbine (8T) 21-40 sets with super high speed circumferential speed + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Horizontally driven blade water gravity turbine (8T) 41-60 sets driven by magnetically driven bearing load approaching zero + super high speed circumferential speed + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to use magnetically driven bearings to drive the jet, aiming at a horizontal full-speed blade hydrogravity turbine (8T) 61-80 sets with super high speed circumferential speed + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to use magnetically driven bearings to drive the jet, aiming at zero load + ultra-high speed circumferential speed horizontal blade hydrogravity turbine (8T) 81 to 100 sets of power generation electric product drive + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to use magnetically driven bearings for jet drive + horizontal full-blade hydrogravity turbine (8T) 101-120 generator electric product drive with ultra-high speed circumferential speed + both-side center support counter-rotating compressed air (28a) drive Various energy conservation cycle coalescence engines and coalescence methods for coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming at a bearing load of 0 approaching the jet drive and aiming at a super high speed circumferential speed full-blade hydrogravity turbine (8T) 121-140 set power generation electric product drive + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to use magnetically driven bearings to drive by injection + horizontal full-blade hydrogravity turbine (8T) 141-160 sets driven by ultra-high speed circumferential speed + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to use magnetically driven bearings for jet drive, aiming at a horizontal full-speed blade hydrogravity turbine (8T) 161-180 sets driven by super high speed circumferential speed + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming at a bearing load of 0 approaching jet drive and aiming at a super high speed circumferential speed all-wheel blade water gravity turbine (8T) 181 to 200 sets driven electric product drive + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   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. Combined of a full-blade hydro-gravity turbine (8T) 1 to 20 sets of power generation electrical product drive + double-side center support counter-rotating compressed air (28a) drive with a diameter of magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined of full-blade hydro-gravity turbine (8T) 21-40 sets generating electric product drive + both-side center support counter-rotating compressed air (28a) drive with a diameter of magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined use of horizontal full-blade hydrogravity turbine (8T) 41-60 power generation electric product drive + double-side center support counter-rotating compressed air (28a) drive with diameter-based magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined of full-blade hydro-gravity turbine (8T) 61-80 sets generating electric product drive + double-side center support counter-rotating compressed air (28a) drive with a radial magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined of full-blade hydro-gravity turbine (8T) 81-100 sets generating electric product drive + both-side center support counter-rotating compressed air (28a) drive with a diameter magnetic utilization bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined with a horizontal full-blade hydrogravity turbine (8T) 101-120 generator electric product drive + double-side center support counter-rotating compressed air (28a) drive with a radial magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   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. Combined of a horizontal full-blade hydrogravity turbine (8T) 121-140 generator power generation electric product drive + double-side center support counter-rotating compressed air (28a) drive with a diameter magnetic utilization bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined of full-blade hydro-gravity turbine (8T) 141-160 generator power generation electrical product drive + double-side center support counter-rotating compressed air (28a) drive with diameter-based magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined with a full-blade hydro-gravity turbine (8T) 161-180 sets of power generation electric product drive + double-side center support counter-rotating compressed air (28a) drive with a diameter using magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined use of horizontal full-blade hydrogravity turbine (8T) 181 to 200 sets of electric-powered electrical product drive + double-center-supported counter-rotating compressed air (28a) drive with diameter-based magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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 The inner diameter of the inner diameter driven by -30 can be cut. Experiment using the maximum diameter magnetic bearing load 0 approach + horizontal full-blade hydrogravity turbine (8T) 1-20 sets driven at ultra-high speed circumferential speed + both sides center drive + center of both sides Various energy storage cycle merging engines and merging methods for merging supported counter-rotating compressed air (28a) drive.   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 The inner diameter of the inner diameter that can be driven at -30 can be cut. Experiment using the maximum diameter magnetic bearing load 0 approach + horizontal full-blade water gravity turbine (8T) 21-40 sets with ultra-high speed circumferential speed + power generation electric product drive + center on both sides Various energy storage cycle coalescence engines and coalescence methods for coalescence of supported counter-rotating compressed air (28a) drive.   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 The inner diameter of the inner diameter driven by ~ 30 can be cut. Experiment using the maximum diameter magnetic bearing load close to 0 + ultra-high-speed circumferential speed hydrodynamic turbine (8T) 41-60 sets driven electric product drive + center on both sides Various energy storage cycle coalescence engines and coalescence methods for coalescence of supported counter-rotating compressed air (28a) drive.   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 The inner diameter of the inner diameter can be cut by ~ 30. The maximum diameter of the magnetically utilized bearing load approaches 0 and the horizontal all-blade water-gravity turbine (8T) 61-80 sets driven at ultra-high speed circumferential speed + both sides center drive + center on both sides Various energy storage cycle merging engines and merging methods for merging supported counter-rotating compressed air (28a) drive.   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 The inner diameter of the inner diameter driven by ~ 30 can be cut. Experiment using the maximum diameter magnetic bearing load close to 0 + ultra-high speed circumferential hydrodynamic turbine (8T) 81 to 100 sets of power generation electric product drive + both sides center Various energy storage cycle coalescence engines and coalescence methods for coalescence of supported counter-rotating compressed air (28a) drive.   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 The inner diameter of the inner diameter driven by ~ 30 can be cut. Experiment using the maximum-diameter magnetic bearing load approaching 0 + Ultra-high-speed circumferential speed hydrodynamic turbine (8T) 101-120 Power generation electric product drive + Both sides center support Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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 The inner diameter of the inner diameter driven by -30 can be cut. Experiment using the maximum diameter magnetic bearing load close to 0 + ultra-high speed circumferential hydraulic blade hydrogravity turbine (8T) 121-140 set power generation electric product drive + both sides center Various energy storage cycle coalescence engines and coalescence methods for coalescence of supported counter-rotating compressed air (28a) drive.   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 The inner diameter of the inner diameter driven by -30 can be cut. Experiment using the maximum-diameter magnetic bearing load approaching 0 + ultra-high-speed circumferential speed hydrodynamic turbine (8T) 141-160 sets Driving electric product drive + center on both sides Various energy storage cycle coalescence engines and coalescence methods for coalescence of supported counter-rotating compressed air (28a) drive.   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 The inner diameter of the inner diameter driven by ~ 30 can be cut. Experiment using the maximum diameter magnetic bearing load close to 0 + ultra-high speed circumferential hydraulic blade hydrogravity turbine (8T) 161-180 sets Power generation electric product drive + both sides center Various energy storage cycle coalescence engines and coalescence methods for coalescence of supported counter-rotating compressed air (28a) drive.   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 The inner diameter of the inner diameter driven by ~ 30 can be cut. Experiment using the maximum diameter magnetic bearing load close to 0 + ultra-high-speed circumferential speed hydrodynamic turbine (8T) 181 to 200 sets driven by power generation electric product drive + both sides center Various energy storage cycle coalescence engines and coalescence methods for coalescence of supported counter-rotating compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to drive the inner diameter of the inner diameter of the driven drive Experiment of the maximum diameter using a magnetic bearing load approaching 0 + ultra-high speed circumferential speed hydrodynamic turbine (8T) 1 to 20 pairs of power generation electric product drive + center support on both sides Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 The inner diameter of the inner diameter of the drive driven by injection can be cut. Experiment using the maximum diameter magnetic bearing load close to 0 + ultra-high-speed circumferential speed hydrodynamic turbine (8T) 21 to 40 sets of power generation electric product drive + both sides center support Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to drive the entire inner diameter of the jet driven by the experiment Experiment using the full-diameter magnetic bearing load approaching 0 + ultra-high-speed circumferential speed hydrodynamic turbine (8T) 41 to 60 sets of power generation electric product drive + both sides center support Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 The inner diameter of the inner diameter that can be driven by injection can be cut. Experiment using the maximum diameter magnetic bearing load close to 0 + ultra-high speed circumferential hydraulic blade hydrogravity turbine (8T) 61-80 sets driven electric product drive + center support on both sides Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 The inner diameter of the inner diameter that can be driven by injection can be cut. Experiment using the maximum diameter magnetic bearing load approaching 0 + ultra-high-speed circumferential speed hydrodynamic turbine (8T) 81 to 100 sets of power generation electric product drive + both sides center support Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming at the whole surface of the inner diameter that can be driven by injection driving Experiment using a maximum-diameter magnetic bearing load close to 0 + ultra-high speed circumferential speed hydrodynamic turbine (8T) 101-120 power generation electric product drive + both sides center support Various energy storage cycle merging engines and merging methods for merging with heavy inverted compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to drive the entire inner diameter of the jet driven by the experiment Experiment using the full-diameter magnetic bearing load approaching 0 + ultra-high-speed circumferential speed horizontal blade hydrogravity turbine (8T) 121-140 set power generation electric product drive + center support on both sides Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 Aiming to drive the entire inner diameter of the jet driven by the test. Experiment using the maximum diameter magnetic bearing load approaching 0 + ultra-high speed circumferential speed hydrodynamic turbine (8T) 141-160 sets generating electric product drive + both sides center support Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 The inner diameter of the inner diameter that can be injected and driven by aiming is possible. Test using the maximum diameter magnetic bearing load 0 approach + horizontal all-blade hydrogravity turbine (8T) 161-180 set at ultra-high speed circumferential speed drive + both-side center support Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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). 1) a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a pair of vertical rotations in the same direction at the same speed, water (3E) Mach 30 The inner diameter of the inner diameter driven by injection can be cut by the experiment. The full-diameter magnetic bearing load approaching 0 + the super-high-speed circumferential speed of the full-speed blade hydrogravity turbine (8T) 181 to 200 sets. Various energy storage cycle coalescence engines and coalescence methods for coalescence of counter-rotating compressed air (28a) drive.   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). Combined use of magnetic full-scale blade hydrogravity turbine (8T) 1 to 20 generator electric product drive + both-side center support counter-rotating compressed air (28a) drive with magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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). Combined use of magnetic full load blade water gravity turbine (8T) 21 to 40 generator electric product drive + both-side center support counter rotating compressed air (28a) drive with magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined use of magnetic full-scale blade hydrogravity turbine (8T) 41-60 power generation electric product drive + both-side center support counter-rotating compressed air (28a) drive with magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined use of magnetic full load blade water gravity turbine (8T) 61 to 80 sets of power generation electric product drive + double side center support counter-rotating compressed air (28a) drive with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined use of magnetic full load blade water gravity turbine (8T) 81 to 100 sets generating electric product drive + double-side center support counter-rotating compressed air (28a) drive with magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined use of magnetic full load blade water gravity turbine (8T) 100-120 generator electric product drive + double-side center support counter-rotating compressed air (28a) drive with magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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. Combined use of magnetic full load blade water gravity turbine (8T) 121-140 set generator electric product drive + double-side center support counter-rotating compressed air (28a) drive with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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). Combined use of magnetic full load blade water gravity turbine (8T) 141-160 generator power generation electric product drive + both center support counter-rotating compressed air (28a) drive with magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods.   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). Combined use of a magnetic full-scale blade hydrogravity turbine (8T) 161 to 180 sets driven by magnetic bearing load 0 approach + super high speed circumferential speed + both-side center support counter-rotating compressed air (28a) drive Various energy storage cycle coalescence engines and coalescence methods.   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. Combined use of magnetic full load blade water gravity turbine (8T) 181 to 200 sets driven by magnetic bearing load 0 approach + super high speed circumferential speed + double-side center support counter-rotating compressed air (28a) drive Various energy storage cycle coalescence engines and coalescence methods.   A magnet with a wear-resistant super-water-repellent plating (3a), with two horizontal shafts (16A) fixed to both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full-blade propeller turbine. Combined use of horizontal full-blade hydrogravity turbine (8T) 1-20 sets of power generation electric product drive + double-side center support counter-rotating compressed air (28a) drive with approaching bearing load 0 approach + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   A magnet with a wear-resistant super-water-repellent plating (3a), a set of two horizontal shafts (16A) fixed on both sides of a cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full blade impeller turbine. Combined use of horizontal full-blade water gravity turbine (8T) 21 to 40 generator electric product drive + both-side center support counter-rotating compressed air (28a) drive with bearing load approaching 0 + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   A magnet with a wear-resistant super-water-repellent plating (3a), with two horizontal shafts (16A) fixed to both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full-blade propeller turbine. Combined use of horizontal full-blade hydrogravity turbine (8T) 41-60 sets generating electric product drive + double-side center support counter rotating compressed air (28a) drive with approaching bearing load 0 approach + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   A magnet with a wear-resistant super-water-repellent plating (3a), a set of two horizontal shafts (16A) fixed on both sides of a cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full blade impeller turbine. Combined use of horizontal full-blade water gravity turbine (8T) 61-80 power generation electric product drive + double-side center support counter-rotating compressed air (28a) drive with approaching bearing load 0 approach + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   A magnet with a wear-resistant super-water-repellent plating (3a), a set of two horizontal shafts (16A) fixed on both sides of a cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full blade impeller turbine. Combined use of horizontal full-blade water gravity turbine (8T) 81-100 power generation electric product drive + double-side center support counter-rotating compressed air (28a) drive with approaching bearing load 0 approach + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   A magnet with a wear-resistant super-water-repellent plating (3a), a set of two horizontal shafts (16A) fixed on both sides of a cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full blade impeller turbine. Combined use of horizontal full-blade hydrogravity turbine (8T) 100-120 power generation electric product drive + double side center support counter-rotating compressed air (28a) drive with bearing load approaching 0 + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   A magnet with a wear-resistant super-water-repellent plating (3a), a set of two horizontal shafts (16A) fixed on both sides of a cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full blade impeller turbine. Combined use of horizontal full-blade hydrogravity turbine (8T) 121-140 power generation electric product drive + double-side center support counter-rotating compressed air (28a) drive with approaching bearing load 0 approach + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   A magnet with a wear-resistant super-water-repellent plating (3a), a set of two horizontal shafts (16A) fixed on both sides of a cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full blade impeller turbine. Combined use of horizontal full-blade hydrogravity turbine (8T) 141-160 generator power generation electric product drive + double-side center support counter-rotating compressed air (28a) drive with approaching bearing load 0 approach + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   A magnet with a wear-resistant super-water-repellent plating (3a), a set of two horizontal shafts (16A) fixed on both sides of a cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full blade impeller turbine. Combined use of horizontal full-blade hydrogravity turbine (8T) 161-180 power generation electric product drive + both-side center support counter-rotating compressed air (28a) drive with approaching bearing load 0 approach + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   A magnet with a wear-resistant super-water-repellent plating (3a), a set of two horizontal shafts (16A) fixed on both sides of a cylindrical turbine blade group (8A) by a horizontal shaft plate (16), and a series full blade impeller turbine. Combined use of horizontal full-blade water gravity turbine (8T) 181 to 200 sets of power generation electrical product drive + double-side center support counter-rotating compressed air (28a) drive with approaching bearing load 0 approach + super high speed circumferential speed Energy conservation cycle coalescence engine and coalescence method.   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). Combined with a horizontal full-blade hydrogravity turbine (8T) 1 to 20 generator electric product drive + double-side center support counter-rotating compressed air (28a) drive with a magnetic bearing load of 0 approach + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   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). Combined with a horizontal full-blade hydrogravity turbine (8T) 21 to 40 generator electric product drive + both-side center support counter-rotating compressed air (28a) drive with a magnetic bearing load of 0 approach + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   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). Combined with a horizontal full-blade hydrogravity turbine (8T) 41-60 sets generating electric product drive + double-side center support counter-rotating compressed air (28a) drive with a magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   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). Combined with a horizontal full-blade hydrogravity turbine (8T) 61 to 80 generator electric product drive + double-side center support counter-rotating compressed air (28a) drive with a magnetic bearing load of 0 approach + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   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). The combined use of a horizontal full-blade hydrogravity turbine (8T) 81-100 power generation electric product drive + double-sided center support counter-rotating compressed air (28a) drive with a magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   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). Combined with a full-blade moving blade water gravity turbine (8T) 100-120 sets driven by a magnetically utilized bearing load 0 approached + super high speed circumferential speed + both sides center support counter-rotating compressed air (28a) drive Various energy storage cycle coalescence engine and coalescence method.   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). The combined use of horizontal full-blade hydrogravity turbine (8T) 121-140 generator power generation electric product drive + double-side center support counter-rotating compressed air (28a) drive with a magnetic bearing load of 0 approach + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   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). The combined use of horizontal full-blade hydrogravity turbine (8T) 141-160 generator electric product drive + both-side center support counter-rotating compressed air (28a) drive with a magnetically utilized bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   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). Combined with a horizontal full-blade hydrogravity turbine (8T) 161-180 generator-driven electric product drive + double-side center support counter-rotating compressed air (28a) drive with a magnetic bearing load approaching 0 + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   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). Combined with a fully-rotating blade hydrogravity turbine (8T) 181 to 200 sets generating electric product drive + double-side center support counter-rotating compressed air (28a) driven with a magnetic bearing load of 0 approach + super high speed circumferential speed Various energy storage cycle coalescence engine and coalescence method.   A horizontal full-blade hydrogravity turbine (8T) that is equipped with a solar heater (21) with buoyancy on the water surface and uses solar heated air with a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed. Electric generator driven by a simple compressor (3s), compressed one or more times, recovered heat with a high-pressure high-temperature water heating pipe (5H) for each compression, electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescing engines and coalescence methods that combine feed drive + both center support counter-rotating compressed air (28a) drive coalescence.   A solar heater (21) is provided with buoyancy on the water surface, and a rotation support part (4f) for controlling rotation of the sunlight at right angles from east to west is provided, and the solar heating air is used as a magnetic bearing load. Horizontal type full-blade hydrogravity turbine (8T) with 0 approach + super high speed circumferential speed (8T) Compressed one or more times with a simple compressor (3s) of extremely inexpensive power generation and electric drive. (5H) heat recovery, electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) feed drive + both-side center support counter-rotating compressed air (28a) drive coalescence Organization 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), a horizontal full-rotation blade hydrogravity turbine that uses solar heated air as a magnetic bearing load approaching 0 and a super-high-speed circumferential speed as a device that controls rotation of sunlight at a right angle in the vertical direction. 8T) Compressed one or more times with a simple compressor (3s) of extremely inexpensive power generation and electric drive, and recovers heat with a high-pressure high-temperature water heating pipe (5H) for each compression. Superheated steam temperature supply facility (3D) feed drive + both center support counter-rotating compressed air (28a) drive combined various energy storage cycle coalescing 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. Horizontal type full-blade hydrogravity turbine (8T) with maximum air (28a) temperature, magnetic bearing load approaching 0 + super high speed circumferential speed Compressed multiple times, heat recovered with high-pressure high-temperature water heating pipe (5H) for each compression, electricity + liquid air cooling + high-temperature water to superheated steam temperature supply equipment (3D) feed drive + both sides center support counter-rotating compression Air (28a) for each drive combination Energy conservation cycle combined institutions 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. Horizontal full blade hydrogravity turbine with maximum air (28a) temperature and external air (28a) heated to each air passage (28A) as high temperature selective suction, with magnetic bearing load approaching 0 + super high speed circumferential speed (8T) Compressed one or more times with a simple compressor (3s) of extremely inexpensive power generation and electric drive, recovered heat with a high-pressure and high-temperature water heating pipe (5H) for each compression, electricity + liquid air cold heat + hot water -Superheated steam temperature supply equipment (3D Feed drive + sides center support counter-rotating compressed air (28a) various energy conservation cycle combined engine and coalescence process for the driving coalesce.   A horizontal full-blade hydrogravity turbine (8T) with a solar heater (21) provided with a circular railroad on a flat ground, with solar heating air having a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed. Compressed one or more times with a simple compressor (3s) driven by low-cost power generation, recovered heat with a high-pressure high-temperature water heating pipe (5H) for each compression, and supplied with electricity + liquid air cold + hot water to superheated steam Various energy storage cycle coalescing engines and coalescing methods that combine equipment (3D) feed drive + both center support counter-rotating compressed air (28a) drive coalescence.   The solar heater (21) is provided with a circular railroad on a flat ground, and includes a rotation support portion (4f) for controlling and rotating the sunlight at a right angle from east to west, and the solar heating air is used as a magnetic bearing. Horizontal full-rotor blade water gravity turbine (8T) approaching zero load + super high speed circumferential speed (8T) Compressed one or more times with a simple compressor (3s) driven by extremely low-cost power generation, and heated with high pressure and high temperature water for each compression Various energy conservation cycles to recover heat with a pipe (5H) and combine electricity + liquid air cold + hot water to superheated steam temperature supply equipment (3D) feed drive + both sides center support counter-rotating compressed air (28a) drive Merger engine and merger method.   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), a horizontal full-blade hydrogravity turbine in which sunlight is rotated and maintained at a right angle in the vertical direction, and the solar heating air is made to have a magnetic bearing load approach 0 and an ultra-high speed circumferential speed. (8T) Compressed one or more times with a simple compressor (3s) of extremely inexpensive power generation and electric drive, recovered heat with a high-pressure and high-temperature water heating pipe (5H) for each compression, electricity + liquid air cold heat + hot water -Superheated steam temperature supply equipment (3D) feed drive + both-side center support counter-rotating compressed air (28a) drive coalescing various energy storage cycle coalescing engine and coalescence method.   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). With a simple compressor (3 s) with an extremely low power generator and electric drive, the horizontal all-blade hydrogravity turbine (8T) with the maximum temperature of the irradiated internal air (28a), a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed. Compress one or more times, recover heat with high-pressure high-temperature water heating pipe (5H) for each compression, electricity + liquid air cooling + high-temperature water to superheated steam temperature supply equipment (3D) feed drive + double-side center support double Reverse compressed air (28a) drive coalescence Various energy conservation cycle combined institutions and coalescence how to.   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). Horizontal all-wing blade water with the maximum temperature of the irradiated internal air (28a) and the external air (28a) heated as each air passage (28A) as a high temperature selective suction, with a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed Gravity turbine (8T) Extremely inexpensive power generation Electric drive, compressed by simple compressor (3s) one or more times, heat recovered by high pressure hot water heating pipe (5H) for each compression, electricity + liquid air cold heat + Hot water to superheated steam temperature supply facility (3D) feed drive + sides center support counter-rotating compressed air (28a) various energy conservation cycle combined engine and coalescence process for the driving coalesce.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engine and coalescence method for driving liquid oxygen (5K) receiving drive + both center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Liquid energy (5K) superheated steam (50) receiving drive + both center support counter-rotating compressed air (28a) driven various energy storage cycle coalescing engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Various energy storage cycle coalescence engines and coalescence methods for driving liquid oxygen (5K) superheated steam (50) to a plurality of theoretical combustion chambers (4Q) and driving both side center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods for driving liquid oxygen (5K) superheated steam (50) to a plurality of theoretical combustion chambers (4Q) and driving coalescence + driving both side center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Various energy storage cycle coalescence engines and coalescence methods for driving liquid oxygen (5K) superheated steam (50) into a plurality of theoretical combustion chambers (4Q) and driving combined rocket combustion + both center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Various energy storage cycle coalescence engines and coalescence methods for driving liquid oxygen (5K) superheated steam (50) to multiple theoretical combustion chambers (4Q) and adding combined rocket combustion additional driving + both center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods in which liquid oxygen (5K) superheated steam (50) is received in a plurality of theoretical combustion chambers (4Q) and coalesced rocket combustion + both center support counter-rotating compressed air (28a) is combusted.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods in which liquid oxygen (5K) superheated steam (50) is received in a plurality of theoretical combustion chambers (4Q) by receiving rocket combustion + both center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Various energy storage cycle coalescence engines and coalescence methods in which liquid oxygen (5K) superheated steam (50) is received in a plurality of theoretical combustion chambers (4Q) by receiving rocket combustion + both center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Various energy storage cycle coalescence engines and coalescence methods in which liquid oxygen (5K) superheated steam (50) is received in a plurality of theoretical combustion chambers (4Q) by receiving rocket combustion + both center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Two types of theoretical combustion chambers (4Q) that receive low-cost liquid oxygen (5K) and make the compression volume 21/60000 of air compression (4Q) Super high pressure fuel combustion + Both sides center support counter-rotating compressed air (28a) Combustion simple gas Various energy storage cycle coalescing engines and coalescence methods for driving an engine (88d) and driving an automobile.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity, various combustion engines (88d) driven by a simple gas engine (88d) as theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion Energy conservation cycle coalescence engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double side center support counter-rotating compressed air (28a) combustion, simple gas engine (88d) drive and automobile Various energy storage cycle coalescence engines and coalescence methods to be driven.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Drive generator (1) Various energy storage cycle coalescence engine and coalescence method for accumulating power in the drive battery (1A) and driving the battery drive wheel (4J) rotating simple gas engine vehicle (7d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-cost liquid oxygen (5K) + electricity is received, theoretical combustion chamber (4Q) ultra high-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, simple gas engine (88d) drive generator (1) drive Various energy storage cycle coalescence engines and coalescence methods for storing electricity in the storage battery (1A) and driving the battery drive wheels (4J) rotating simple gas engine automobile (7d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) drive generator ( 1) Various energy storage cycle coalescence engines and coalescence methods that store electricity in the drive storage battery (1A) and drive the storage battery drive wheels (4J) rotating simple gas engine vehicle (7d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Drive generator (1) Various energy storage cycle coalescence engine and coalescence method for driving a simple gas engine vehicle (7d) capable of rotating the storage battery drive wheel (4J) and normal wheel by accumulating in the drive accumulator (1A).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-cost liquid oxygen (5K) + electricity is received, theoretical combustion chamber (4Q) ultra high-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, simple gas engine (88d) drive generator (1) drive Various energy storage cycle coalescence engines and coalescence methods that store in a storage battery (1A) and drive a simple gas engine vehicle (7d) capable of rotating a storage battery drive wheel (4J) and rotating a normal wheel.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) drive generator ( 1) Various energy storage cycle coalescence engines and coalescence methods for storing in the drive accumulator (1A) and driving a simple gas engine vehicle (7d) capable of rotating the accumulator drive wheels (4J) and normal wheels.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescence engine and coalescence method for driving and driving a simple gas engine vehicle (7d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle merging engines and merging methods for driving and driving a screw (7C) rotating ship.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Low cost liquid oxygen (5K) + electricity is received, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion, simple gas engine (88d) drive and screw (7C) Various energy storage cycle coalescence engines and coalescence methods for driving a rotating ship.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) drive and screw (7C) Various energy storage cycle coalescence engine and coalescence method for driving a rotating ship.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescing engines and coalescence methods that drive 1 to plural and drive a screw (7C) multiple rotations.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple drives and screw (7C) A combination engine and a combination method for various energy storage cycles for driving a multi-rotation ship.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Then, various energy storage cycle coalescence engines and coalescence methods for driving a screw (7C) multiple rotation ship.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescing engines and coalescence methods that drive 1 to plural and drive a screw (7C) multi-turn simple gas engine ship (7e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple drives and screw (7C) Multi-rotation simple gas engine ship (7e) Various energy storage cycle coalescing engine and coalescence method for driving.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Then, various energy storage cycle coalescence engines and coalescence methods for driving the screw (7C) multi-turn simple gas engine ship (7e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescing engines and coalescence methods for driving and driving simple gas engine ships (7e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescence engines and coalescence methods for driving and driving a propulsion vessel such as a screw (7C) rotating simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Low cost liquid oxygen (5K) + electricity is received, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion, simple gas engine (88d) drive and screw (7C) Various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion ship such as a rotary simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) drive and screw (7C) Various energy storage cycle coalescence engines and coalescence methods for driving an injection propulsion ship such as a rotary simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescence engines and coalescence methods that drive one or more to drive an injection propulsion ship such as a screw (7C) multiple rotation simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple drives and screw (7C) A multi-rotation simple water injection engine (88e) or the like, and various energy storage cycle coalescence engines and coalescence methods for driving an injection propulsion ship.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Then, various energy storage cycle coalescence engines and coalescence methods for driving an injection propulsion ship such as a screw (7C) multiple rotation simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescence engines and coalescence methods that drive 1 to plural and drive a screw (7C) multiple rotation simple water injection engine (88e), etc.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple drives and screw (7C) A multi-rotation simple water injection engine (88e) or the like, and various energy storage cycle coalescence engines and coalescence methods for driving a propulsion screw injection ship.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Various energy storage cycle coalescence engines and coalescence methods for driving a propulsion screw injection vessel such as a screw (7C) multiple rotation simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescence engines and coalescence methods for driving and driving a simple water injection engine (88e), etc.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Theoretical combustion chamber (4Q) receiving low-cost liquid oxygen (5K) and the compression volume being 21/60000 of air compression, multiple ultrahigh pressure fuel combustion injection propulsion + both center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescing engine and coalescence method for driving an injection propulsion ship such as a simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Simple water injection engine (88e) injection, etc. receiving low-priced liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) multiple ultra-high pressure fuel combustion injection propulsion + both-side center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engines and coalescence methods for driving propulsion vessels.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) A simple water injection engine (88e) that receives low-priced liquid oxygen (5K) + electricity + high-temperature water and burns in a theoretical combustion chamber (4Q) multiple ultrahigh pressure fuel combustion injection propulsion + both-side center support counter-rotating compressed air (28a) combustion ) Various energy conservation cycle coalescence engines and coalescence methods for driving equal injection propulsion vessels.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) equipped with low-pressure liquid oxygen (5K) and the compression volume is 21/60000 of air compression. Various energy storage cycle coalescence engines and coalescence methods for driving an injection propulsion ship such as a simple water injection engine (88e) that is combusted with air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-cost liquid oxygen (5K) + simple water injection that receives electricity, and has a theoretical combustion chamber (4Q) with multiple air suction channels including a combustion chamber (4Q) + double-side center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion ship such as an engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Received low-priced liquid oxygen (5K) + electricity + high-temperature water, and made a super combustion fuel injection propulsion including a theoretical combustion chamber (4Q) air suction channel + double-side center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion ship such as a simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) equipped with low-pressure liquid oxygen (5K) and the compression volume is 21/60000 of air compression. Various energy storage cycle coalescence engines and coalescence methods for driving a simple water injection engine (88e), such as a simple water injection engine (88e) that burns air (28a), and a ship (7g).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Low-cost liquid oxygen (5K) + simple water injection that receives electricity, and has a theoretical combustion chamber (4Q) with multiple air suction channels including a combustion chamber (4Q) + double-side center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion simple water injection engine ship (7g) such as an engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Received low-priced liquid oxygen (5K) + electricity + high-temperature water, and made a super combustion fuel injection propulsion including a theoretical combustion chamber (4Q) air suction channel + double-side center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engines and coalescence methods for driving a simple water injection engine (88e), etc., an injection propulsion simple water injection engine ship (7g).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) A simple water injection engine (88e) that receives low-cost liquid oxygen (5K) and burns with a plurality of theoretical combustion chambers (4Q) and double-side center support counter-rotating compressed air (28a) that compresses the compressed volume to 21/60000 of air compression. ) Equi-injection propulsion simple water injection engine ship (7g) various energy storage cycle coalescence engine and coalescence method to drive.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Theoretical combustion chamber (4Q) receiving low-priced liquid oxygen (5K) and having a compression volume of 21/60000 of air compression, super-high pressure fuel combustion injection propulsion + both center support counter-rotating compressed air (28a) combustion Various energy conservation cycle coalescence engine and coalescence method for making a simple injection engine (88f) injection propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) A simple injection engine (88f) injection propulsion airplane that receives low-cost liquid oxygen (5K) + electricity, and has a theoretical combustion chamber (4Q) multiple ultrahigh pressure fuel combustion injection propulsion + bilateral center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Simple injection engine (88f) receiving low-priced liquid oxygen (5K) + electricity + high-temperature water, theoretical combustion chamber (4Q) multiple ultra-high pressure fuel combustion injection propulsion + double-side center support counter-rotating compressed air (28a) combustion Various energy conservation cycle coalescence engines and coalescence methods for making jet propulsion airplanes.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) A theoretical combustion chamber (4Q) that receives low-cost liquid oxygen (5K) and has a compression volume of 21/60000 of air compression. (28a) Combustion simple injection engine (88f) Various energy storage cycle coalescence engine and coalescence method for making an injection propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Simple injection engine that receives low-priced liquid oxygen (5K) + electricity and has a theoretical combustion chamber (4Q) air suction flow path and multiple ultra-high pressure fuel combustion injection propulsion + both-side center support counter-rotating compressed air (28a) combustion (88f) Various energy storage cycle coalescence engines and coalescence methods for making an injection propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Received low-priced liquid oxygen (5K) + electricity + high-temperature water, and made a super combustion fuel injection propulsion including a theoretical combustion chamber (4Q) air suction channel + double-side center support counter-rotating compressed air (28a) combustion Various energy conservation cycle coalescence engine and coalescence method for making a simple injection engine (88f) injection propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) A theoretical combustion chamber (4Q) that receives low-cost liquid oxygen (5K) and has a compression volume of 21/60000 of air compression. (28a) Combustion simple injection engine (88f) Injection propulsion simple injection engine airplane (7h) Various energy storage cycle coalescence engine and coalescence method for driving.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple injection engine that receives low-priced liquid oxygen (5K) + electricity and has a theoretical combustion chamber (4Q) air suction flow path and multiple ultra-high pressure fuel combustion injection propulsion + both-side center support counter-rotating compressed air (28a) combustion (88f) Injection propulsion simple injection engine airplane (7h) Various energy storage cycle coalescing engine and coalescence method for driving.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Received low-priced liquid oxygen (5K) + electricity + high-temperature water, and made a super combustion fuel injection propulsion including a theoretical combustion chamber (4Q) air suction channel + double-side center support counter-rotating compressed air (28a) combustion Simple injection engine (88f) injection propulsion simple injection engine airplane (7h) various energy storage cycle coalescing engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving low-priced liquid oxygen (5K), the compression volume is 21/60000 of the air compression, the theoretical combustion chamber (4Q) multiple simple injection engine (88f) injection propulsion simple injection engine airplane (7h) various energy to drive Storage cycle coalescence engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescence engines and coalescence methods for driving and propeller (7A) rotating airplane drive.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) drive and propeller (7A) Various energy storage cycle coalescence engine and coalescence method for driving a rotating airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center supported counter-rotating compressed air (28a) combustion as simple gas engine (88d) drive and propeller (7A) Various energy storage cycle coalescence engines and coalescence methods for driving a rotating airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle merging engines and merging methods for driving one to a plurality of propellers (7A) and driving a plurality of rotating airplanes.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple driving propeller (7A) Various energy storage cycle coalescence engine and coalescence method for driving a multi-rotation airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Then, a propeller (7A) various energy storage cycle coalescing engine and coalescence method for driving a multi-turn airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle merging engines and merging methods in which one to plural driving and propeller (7A) plural rotation simple gas engine airplane (7f) are driven.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple driving propeller (7A) Multi-rotation simple gas engine airplane (7f) Various energy storage cycle coalescing engine and coalescence method for driving.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Then, various energy storage cycle coalescence engines and coalescence methods for driving the propeller (7A) multi-turn simple gas engine airplane (7f).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle merging engines and merging methods for driving and propeller (7A) rotating simple gas engine airplane (7f).   Horizontal full-rotor blade water gravity turbine (R) with magnetic bearing load approaching 0 and ultra-high speed circumferential speed (R) From electricity + liquid air cold heat + hot water to superheated steam heat supply facility (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Drive rotor (7B) Various energy storage cycle coalescing engine and coalescence method for rotating and driving an airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) drive rotor (7B) rotation Various energy storage cycle coalescence engine and coalescence method for driving by airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) driven rotor blade ( 7B) Various energy storage cycle coalescence engines and coalescence methods that rotate and drive by airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) 1 to multiple drive rotor blades (7B) various energy storage cycle coalescing engines and coalescence methods that drive the aircraft by multiple revolutions.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple drive rotor blades ( 7B) Various energy storage cycle coalescing engines and coalescence methods for driving a plurality of revolutions to drive an airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Various energy storage cycle coalescing engine and coalescence method for rotating the rotor (7B) and driving the airplane by multiple rotations.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) 1 to multiple drive rotor blades (7B) various energy storage cycle coalescing engine and coalescence method for driving the rotor blade airplane (7i) with multiple rotations.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple drive rotor blades ( 7B) Various energy storage cycle coalescing engines and coalescence methods for rotating a plurality of rotating blade airplanes (7i).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Various energy storage cycle coalescence engines and coalescence methods for rotating the rotor blade (7B) and driving the rotorcraft (7i).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescence engines and coalescence methods for driving the rotor blades (7B) and driving the rotorcraft plane (7i).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Drive propeller (7A) rotating and simple injection engine (88f) various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, simple gas engine (88d) drive propeller (7A) rotates Simple injection engine (88f) Various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) drive propeller (7A ) Rotating and simple injection engine (88f) Various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) 1 to multiple drive propeller (7A) multiple rotation and simple injection engine (88f) various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) super high pressure fuel combustion + double side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple drive propellers (7A ) Multi-rotation simple injection engine (88f) Various energy storage cycle coalescing engine and coalescence method for driving a jet propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Propeller (7A) Multiple rotations and simple injection engine (88f) Various types of energy storage cycle coalescence engine and coalescence method for driving an injection propulsion airplane.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) 1 to multiple drive propellers (7A) various energy storage cycle coalescence engines and coalescence methods for driving a plurality of rotations and driving simple injection engines (88f) injection propulsion simple gas engine airplanes (7f), etc.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) super high pressure fuel combustion + double side center support counter-rotating compressed air (28a) combustion as simple gas engine (88d) 1 to multiple drive propellers (7A ) Various energy storage cycle coalescing engine and coalescence method for driving a plurality of rotations and driving a simple injection engine (88f) injection propulsion simple gas engine airplane (7f) and the like.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion simple gas engine (88d) 1 to multiple drive Various energy storage cycle coalescing engines and coalescence methods for driving a propeller (7A), rotating a plurality of simple injection engines (88f), and propelling simple gas engine airplanes (7f).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle merging engines and merging methods for driving the driving propeller (7A) and driving the simple injection engine (88f) injection propulsion simple gas engine airplane (7f) and the like.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives low-priced liquid oxygen (5K) and has a compression volume of 21/60000 of air compression. Ultrahigh-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, high-pressure high-temperature combustion Various energy storage cycle coalescing engine and coalescence method for injecting gas (5M) and driving a simple gas engine (88d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) super high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, high pressure high temperature combustion gas (5M) is simply injected Various energy storage cycle coalescence engine and coalescence method for driving a gas engine (88d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity + high-temperature water, theoretical combustion chamber (4Q) ultra high-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, high-pressure high-temperature combustion gas (5M) injected Various energy storage cycle coalescing engines and coalescence methods for driving simple gas engines (88d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives low-priced liquid oxygen (5K) and has a compression volume of 21/60000 of air compression. Ultrahigh-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, high-pressure high-temperature combustion Various energy storage cycle coalescence engine and coalescence method driven by a simple gas engine (88d) that injects gas (5M) and reverses the horizontal axis (1h).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) super high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion, high pressure high temperature combustion gas (5M) is injected to the side Shaft (1h) Double gas reversing simple gas engine (88d) driven various energy storage cycle coalescing engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity + high-temperature water, theoretical combustion chamber (4Q) ultra high-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, high-pressure high-temperature combustion gas (5M) injected Then, the horizontal axis (1h) a simple gas engine (88d) that is double-reversed, and various energy storage cycle coalescing engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives low-priced liquid oxygen (5K) and has a compression volume of 21/60000 of air compression. Ultrahigh-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, high-pressure high-temperature combustion Various energy storage cycle coalescence engines and coalescence methods in which gas (5M) is injected to drive a plurality of simple gas engines (88d) with a horizontal axis (1h) counter-inversion.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) Receiving low-priced liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) super high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion, high pressure high temperature combustion gas (5M) is injected to the side A variety of energy storage cycle coalescence engines and coalescence methods for driving a plurality of simple gas engines (88d) with shafts (1h) counter-rotating.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity + high-temperature water, theoretical combustion chamber (4Q) ultra high-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, high-pressure high-temperature combustion gas (5M) injected Then, the horizontal axis (1h), a plurality of simple gas engines (88d) with a plurality of counter-inverted types, and various energy storage cycle coalescing engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives low-priced liquid oxygen (5K) and has a compression volume of 21/60000 of air compression. Ultrahigh-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion, high-pressure high-temperature combustion Various energy storage cycle coalescence engines and coalescence methods in which gas (5M) is injected to drive a plurality of simple gas engines (88d) with a horizontal axis (1h) counter-inversion.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) and making the compression volume 21/60000 of the air compression, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion as simple gas engine ( 88d) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Combining various energy storage cycles that receive low-cost liquid oxygen (5K) + electricity and make it a simple gas engine (88d) as a theoretical combustion chamber (4Q) ultrahigh-pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion Organization and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity + high temperature water, various energy to make a simple gas engine (88d) as theoretical combustion chamber (4Q) super high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion Storage cycle coalescence engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) and sets the compression volume to 21/60000 of air compression. Theoretical combustion chamber (4Q) Super high pressure fuel combustion + Double-side center support counter-rotating compressed air (28a) Combustion to maximum speed Various energy storage cycle coalescence engine and coalescence method to make a simple gas engine (88d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various types of simple gas engine (88d) that receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultrahigh pressure fuel combustion + double-side center support counter-rotating compressed air (28a) and maximum speed as combustion Energy conservation cycle coalescence engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple gas engine (88d) that receives low-priced liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion and maximum speed Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives low-priced liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + Double-side center supported counter-rotating compressed air (28a) combustion to maximum driving speed Various energy storage cycle coalescence engine and coalescence method to make a simple gas engine (88d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support counter-rotating compressed air (28a) to make a simple gas engine (88d) with maximum driving speed Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) A simple gas engine (88d) that receives low-priced liquid oxygen (5K) + electricity + high-temperature water and makes the maximum driving speed as theoretical combustion chamber (4Q) ultrahigh pressure fuel combustion + double-side center support counter-rotating compressed air (28a) combustion ) Various energy conservation cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) and sets the compression volume to 21/60000 of air compression. Theoretical combustion chamber (4Q) Super high-pressure fuel combustion + Double-side center support counter-rotating compressed air (28a) Combustion Various energy storage cycle coalescence engine and coalescence method to make a simple gas engine (88d).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), compresses liquid together with liquid fuel (1c) and water (52a), and compresses the compressed volume with 21/60000 volume of air compression, etc. Ultra high pressure compressed fuel injection combustion + Double-sided center support double Various energy storage cycle coalescing engines and coalescence methods for two types of theoretical combustion chambers (4Q) that burn with inverted compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity, compresses liquid together with liquid fuel (1c) and water (52a), and compresses the volume with 21/60000 volume of air compression, etc. Various energy storage cycle coalescing engines and coalescence methods for making two types of theoretical combustion chambers (4Q) for burning counter-inverted compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity + high-temperature water, compresses the liquid together with liquid fuel (1c) and water (52a), and compresses the compressed volume to 21/60000 volume of air compression, etc. Various energy storage cycle coalescence engine and coalescence method to make two kinds of theoretical combustion chambers (4Q) to burn both sides center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), compresses liquid together with liquid fuel (1c) and water (52a), heats to the optimum temperature on the inner wall of the theoretical combustion chamber (4Q) + double-side center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for combustion.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives cheap liquid oxygen (5K) + electricity, compresses liquid with liquid fuel (1c) and water (52a) and heats to the optimum temperature on the inner wall of the theoretical combustion chamber (4Q) 28a) Various energy storage cycle coalescence engines and coalescence methods for burning.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheap liquid oxygen (5K) + electricity + hot water, compress liquid with liquid fuel (1c) and water (52a) and heat to the optimum temperature on the inner wall of the theoretical combustion chamber (4Q) Various energy storage cycle coalescence engine and coalescence method for burning compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), compresses liquid together with liquid fuel (1c) and water (52a), heats to the optimum temperature on the inner wall of the theoretical combustion chamber (4Q) + double-side center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for opening the combustion oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives cheap liquid oxygen (5K) + electricity, compresses liquid with liquid fuel (1c) and water (52a) and heats to the optimum temperature on the inner wall of the theoretical combustion chamber (4Q) 28a) Various energy storage cycle coalescence engines and coalescence methods that open the combustion oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheap liquid oxygen (5K) + electricity + hot water, compress liquid with liquid fuel (1c) and water (52a) and heat to the optimum temperature on the inner wall of the theoretical combustion chamber (4Q) Various energy storage cycle coalescence engine and coalescence method for opening compressed air (28a) combustion oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + hot water, compresses liquid with liquid fuel (1c) and water (52a) and heats to the optimum temperature on the inner wall of the theoretical combustion chamber (4Q) (28a) Various energy storage cycle coalescence engines and coalescence methods for injecting combustion oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) together with open received superheated steam.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive low-priced liquid oxygen (5K), and heat oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) open to the optimum temperature + superheated steam (50) heated + both sides center supported Various energy storage cycle coalescing engine and coalescence method for a theoretical combustion chamber (4Q) for burning counter-inverted compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity, heating oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) open to optimum temperature + heating superheated steam (50) + both sides Various energy storage cycle coalescing engine and coalescence method for a center combustion counter-rotating compressed air (28a) to burn a theoretical combustion chamber (4Q).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive low-priced liquid oxygen (5K) + electricity + high-temperature water, open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + open superheated steam (50) Various energy storage cycle coalescence engines and coalescence methods for heating + two-side center support counter-rotating compressed air (28a) to make two kinds of theoretical combustion chambers (4Q).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheap liquid oxygen (5K), open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + heat up superheated steam (50) + Various energy storage cycle coalescence engine and coalescence method to make two-side center support counter-rotating compressed air (28a) combustion two kinds of theoretical combustion chamber (4Q).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity, heating oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) open to optimum temperature + superheated steam (50) heated to high temperature + Double-side center support counter-rotating compressed air (28a) combustion 2 types of theoretical combustion chamber (4Q) various energy storage cycle coalescence engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive low-priced liquid oxygen (5K) + electricity + high-temperature water, open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + open superheated steam (50) Heating high temperature + both sides center support counter-rotating compressed air (28a) combustion 2 types of theoretical combustion chamber (4Q) various energy storage cycle coalescence engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheap liquid oxygen (5K), open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + heat superheated steam (50) + center on both sides Various energy storage cycle coalescing engines and coalescence methods for supporting two counter-compressed compressed air (28a) combustion and two types of theoretical combustion chambers (4Q).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheap liquid oxygen (5K) + electricity, open heating oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + heat superheated steam (50) + Various energy storage cycle coalescence engine and coalescence method to make two-side center support counter-rotating compressed air (28a) combustion two kinds of theoretical combustion chamber (4Q).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive low-priced liquid oxygen (5K) + electricity + high-temperature water, open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + open superheated steam (50) Various energy storage cycle coalescence engine and coalescence method for heating + both-side center support counter-rotating compressed air (28a) combustion and two types of theoretical combustion chamber (4Q).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheap liquid oxygen (5K) + hot water, and heat oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) at the optimum temperature. Various energy storage cycle coalescing engines and coalescence methods for heating the outer peripheral superheated steam (50) including the superheated steam received by combustion + both-side center-supporting counter-rotating compressed air (28a), two kinds of combustion, and the theoretical combustion chamber (4Q).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) A simple water injection engine that receives low-priced liquid oxygen (5K) and has a plurality of theoretical combustion chambers (4Q), high-pressure high-temperature combustion gas (5M) injection acceleration injection + both center support counter-rotating compressed air (28a) combustion ( 88e) various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-cost liquid oxygen (5K) + electricity received, high-pressure high-temperature combustion gas (5M) injection accelerated injection equipped with multiple theoretical combustion chambers (4Q) + double-side center support counter-rotating compressed air (28a) simple water injection Various energy storage cycle coalescence engines and coalescence methods in an engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity + high-temperature water, high-pressure high-temperature combustion gas (5M) injection accelerated injection with multiple theoretical combustion chambers (4Q) + double-side center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescing engine and coalescence method in a simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), uses high-pressure high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) to use oxygen + fuel + superheated steam on the inner wall at the optimal temperature + both sides center Various energy storage cycle coalescence engines and coalescence methods in a simple water injection engine (88e) that burns supported counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity, and uses high-pressure high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) oxygen + fuel + superheated steam on the inner wall for use at an optimal temperature + Various energy storage cycle coalescence engine and coalescence method in a simple water injection engine (88e) that combusts both sides center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity + high-temperature water, and heats the oxygen + fuel + superheated steam on the inner wall (4Q) with high-pressure and high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q). Use + both center support counter-rotating compressed air (28a) various energy storage cycle coalescing engine and coalescence method in a simple water injection engine (88e) that burns.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), (4Q) oxygen + fuel + superheated steam on the inner wall with the high-pressure high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) + double-sided center support double Various energy storage cycle coalescing engine and coalescence method in a simple water-injection engine (88e) that burns with inverted compressed air (28a) to make two kinds of theoretical combustion chambers (4Q) combustion, etc.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity, high pressure high temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) inner wall oxygen + fuel + superheated steam optimal temperature heating + center support on both sides Various energy storage cycle coalescing engines and coalescence methods in a simple water injection engine (88e) that burns counter-rotating compressed air (28a) into two types of theoretical combustion chamber (4Q) combustion, etc.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity + high-temperature water, and uses high-pressure and high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) oxygen + fuel on the inner wall + fuel + superheated steam for optimum temperature heating + Various energy storage cycle coalescence engine and coalescence method in a simple water injection engine (88e) in which both sides center support counter-rotating compressed air (28a) is combusted to form two types of theoretical combustion chamber (4Q) combustion.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + high-temperature water, and optimally uses superheated steam containing high-temperature high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) oxygen + fuel on the inner wall + received high-temperature water Various energy storage cycle coalescing engine and coalescence method, which is a simple water injection engine (88e) which is heated by temperature heating + both center support counter-rotating compressed air (28a) to make two kinds of theoretical combustion chambers (4Q) combustion, etc.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), heats oxygen + fuel + superheated steam at the optimum temperature on the inner wall, and burns two types of theoretical combustion chamber (4Q) combustion + both sides center support counter-rotating compressed air (28a) simple water Various energy storage cycle coalescing engine and coalescence method for an injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity, oxygen + fuel + superheated steam at the inner wall at the optimum temperature heating + double-side center support counter-rotating compressed air (28a), and two types of theoretical combustion chamber (4Q) combustion Various energy storage cycle coalescing engine and coalescence method in a simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, oxygen + fuel + superheated steam on the inner wall is heated to the optimum temperature, theoretical combustion chamber (4Q) combustion + both sides center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescing engines and coalescence methods of the simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), heats oxygen + fuel + superheated steam on the inner wall at the optimum temperature, and burns in the theoretical combustion chamber (4Q) + Simple water injection of both sides center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engines and coalescence methods in an engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low cost liquid oxygen (5K) + electricity is received, oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall, and combustion is performed in the theoretical combustion chamber (4Q) + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engine and coalescence method in water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity + high-temperature water, and heats oxygen + fuel + superheated steam on the inner wall at the optimum temperature to burn the theoretical combustion chamber (4Q) + double-side center support counter-rotating compressed air (28a) Various energy storage cycle coalescence engine and coalescence method in a simple water injection engine (88e) for combustion.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), heats oxygen + fuel + superheated steam at the optimal temperature on the inner wall, and heats the superheated steam (50) in the high-temperature water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion + Various energy storage cycle coalescence engine and coalescence method in a simple water injection engine (88e) that combusts both sides center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity, heating the superheated steam (50) in the high-temperature water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion by heating the optimum temperature of oxygen + fuel + superheated steam on the inner wall Various energy storage cycle coalescing engine and coalescence method in the form of a simple water injection engine (88e) that combusts injection + both sides center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive low-priced liquid oxygen (5K) + electricity + high-temperature water, heat oxygen + fuel + superheated steam on the inner wall at the optimum temperature, and heat the superheated steam (50H) in the high-temperature water heating pipe (5H) in theoretical combustion chamber (4Q) combustion (50 ) Is a simple water injection engine (88e) that burns by heating + both sides center support counter-rotating compressed air (28a), and various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + hot water, heating oxygen + fuel + superheated steam at the inner wall at the optimum temperature, and receiving superheated steam received from the hot water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion Various energy storage cycle coalescing engine and coalescence method in which a simple water injection engine (88e) that burns steam (50) by heat injection + both-side center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Easy to receive cheap liquid oxygen (5K) and burn the air (28a) at the optimum place of the suction injection flow as well as combustion injection + both sides center support counter-rotating compressed air (28a) as well as equipped with multiple theoretical combustion chambers (4Q) Various energy storage cycle coalescence engine and coalescence method in water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low cost liquid oxygen (5K) + electricity is received, and air (28a) suction injection flow optimal location is also equipped with multiple theoretical combustion chambers (4Q) combustion injection + both sides center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescing engines and coalescence methods for a simple water injection engine (88e).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity + high-temperature water, the air (28a) is also provided with a plurality of theoretical combustion chambers (4Q) at the optimum location of the suction injection flow, combustion injection + both sides center support counter-rotating compressed air ( 28a) Various energy storage cycle coalescing engines and coalescing methods in a simple water injection engine (88e) that burns.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods which received low-cost liquid oxygen (5K), burned into a simple water injection engine (88e), and the air inlet was forward-facing + both sides center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engine and coalescence method which received low-cost liquid oxygen (5K) + electricity, made a simple water injection engine (88e) and burned the air inlet forward + both sides center support counter-rotating compressed air (28a) .   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low energy liquid oxygen (5K) + electricity + high-temperature water received, simple water injection engine (88e), forward air inlet + both sides center support counter-rotating compressed air (28a) burned various energy storage cycle combined engine And coalescing method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), makes it a simple water injection engine (88e), burns the air inlet forward + both sides center support counter-rotating compressed air (28a), approaches the straight line, and injects bubbles to the bottom of the ship at the maximum Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheap liquid oxygen (5K) + electricity, make it a simple water injection engine (88e), burn the air inlet forward + both sides center support counter rotating compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for injection.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive low-priced liquid oxygen (5K) + electricity + hot water, make it a simple water injection engine (88e), forward the air inlet + both sides center support counter-rotating compressed air (28a), and bring it close to a straight line Various energy storage cycle coalescence engine and coalescence method for jetting bubbles to the maximum.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + high-temperature water, makes it a simple water injection engine (88e), burns the air inlet forward + both sides center support counter-rotating compressed air (28a), approaches the straight line and bubbles in the bottom of the ship Various energy storage cycle coalescence engine and coalescence method for maximum injection.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple injection engine (88f) receiving low-priced liquid oxygen (5K) and accelerating high-pressure high-temperature combustion gas (5M) injection with a plurality of theoretical combustion chambers (4Q) + both center support counter-rotating compressed air (28a) combustion ) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) A simple injection engine that receives low-cost liquid oxygen (5K) + electricity and has a plurality of theoretical combustion chambers (4Q), high-pressure high-temperature combustion gas (5M) injection acceleration injection + both-side center support counter-rotating compressed air (28a) combustion (88f) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity + high-temperature water, high-pressure high-temperature combustion gas (5M) injection accelerated injection with multiple theoretical combustion chambers (4Q) + double-side center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescing engines and coalescence methods made into a simple injection engine (88f).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), uses high-pressure high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) to use oxygen + fuel + superheated steam on the inner wall at the optimal temperature + both sides center Supporting counter-rotating compressed air (28a) A simple injection engine (88f) that burns, and various energy storage cycle coalescing engines and coalescing methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity, and uses high-pressure high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) oxygen + fuel + superheated steam on the inner wall for use at an optimal temperature + Various energy storage cycle coalescence engine and coalescence method in a simple injection engine (88f) that combusts both sides center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity + high-temperature water, and heats the oxygen + fuel + superheated steam on the inner wall (4Q) with high-pressure and high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q). Use + both center support counter-rotating compressed air (28a) various energy storage cycle coalescing engine and coalescence method in a simple injection engine (88f) that burns.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), (4Q) oxygen + fuel + superheated steam on the inner wall with the high-pressure high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) + double-sided center support double Various energy storage cycle coalescence engines and coalescence methods in a simple injection engine (88f) in which two types of theoretical combustion chambers (4Q) combustion, etc., are performed by combustion with inverted compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity, high pressure high temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) inner wall oxygen + fuel + superheated steam optimal temperature heating + center support on both sides Various energy storage cycle coalescing engines and coalescence methods that are made into a simple injection engine (88f) that burns counter-rotating compressed air (28a) into two types of theoretical combustion chamber (4Q) combustion, etc.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity + high-temperature water, and uses high-pressure and high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) oxygen + fuel on the inner wall + fuel + superheated steam for optimum temperature heating + Various energy storage cycle coalescing engine and coalescence method that is a simple injection engine (88f) that burns on both sides center support counter-rotating compressed air (28a) to form two types of theoretical combustion chamber (4Q) combustion.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + high-temperature water, and optimally uses superheated steam containing high-temperature high-temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) oxygen + fuel on the inner wall + received high-temperature water Various energy storage cycle coalescing engine and coalescence method, which is a simple injection engine (88f) which is heated by temperature heating + both center support counter-rotating compressed air (28a) to make two kinds of theoretical combustion chambers (4Q) combustion, etc.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K), oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall, theoretical combustion chamber (4Q) combustion + both sides center support counter-rotating compressed air (28a) combustion simple injection engine ( 88f), various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low cost liquid oxygen (5K) + electricity is received, oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall, and the simple combustion of the theoretical combustion chamber (4Q) combustion + both sides center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engine and coalescence method made into an engine (88f).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + electricity + high temperature water, oxygen + fuel + superheated steam on the inner wall is heated to the optimum temperature, theoretical combustion chamber (4Q) combustion + both sides center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescing engines and coalescence methods of the simple injection engine (88f).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), heats oxygen + fuel + superheated steam on the inner wall at the optimum temperature, and burns in the theoretical combustion chamber (4Q) + both sides center support counter-rotating compressed air (28a) combustion simple injection engine (88f) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low cost liquid oxygen (5K) + electricity is received, oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall, and combustion is performed in the theoretical combustion chamber (4Q) + both sides center support counter-rotating compressed air (28a) Various energy storage cycle coalescing engine and coalescence method for an injection engine (88f).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K) + electricity + high-temperature water, and heats oxygen + fuel + superheated steam on the inner wall at the optimum temperature to burn the theoretical combustion chamber (4Q) + double-side center support counter-rotating compressed air (28a) Various energy storage cycle coalescing engine and coalescence method for a simple combustion engine (88f).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), heats oxygen + fuel + superheated steam at the optimal temperature on the inner wall, and heats the superheated steam (50) in the high-temperature water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion + Various energy storage cycle coalescence engine and coalescence method in a simple injection engine (88f) that combusts both sides center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + electricity, heating the superheated steam (50) in the high-temperature water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion by heating the optimum temperature of oxygen + fuel + superheated steam on the inner wall Various energy storage cycle coalescing engine and coalescence method in a simple injection engine (88f) which burns injection + both center support counter-rotating compressed air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive low-priced liquid oxygen (5K) + electricity + high-temperature water, heat oxygen + fuel + superheated steam on the inner wall at the optimum temperature, and heat the superheated steam (50H) in the high-temperature water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion (50 ) Is a simple injection engine (88f) that burns by heating injection + both sides center support counter-rotating compressed air (28a), and various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheap liquid oxygen (5K) + hot water, heating oxygen + fuel + superheated steam at the inner wall at the optimum temperature, and receiving superheated steam received from the hot water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion Various energy storage cycle coalescence engines and coalescence methods in which a simple injection engine (88f) that burns steam (50) by heat injection + both center support counter-rotating compressed air (28a) is used.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives low-priced liquid oxygen (5K), and also has a plurality of theoretical combustion chambers (4Q) injection parts at the optimum locations of the air (28a) suction injection flow as well as combustion injection + both-side center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescing engines and coalescence methods for a simple injection engine (88f).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-cost liquid oxygen (5K) + electricity is received, and air (28a) suction injection flow is optimally located at a plurality of theoretical combustion chambers (4Q) as well as combustion injection + both-side center support counter-rotating compressed air (28a ) Various energy storage cycle coalescing engines and coalescing methods in a simple injection engine (88f) that burns.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low cost liquid oxygen (5K) + electricity + high temperature water is received, air (28a) suction injection flow is also optimally provided with a plurality of theoretical combustion chambers (4Q) as well as combustion injection + both sides center support counter-rotating compression Various energy storage cycle coalescing engine and coalescence method in a simple injection engine (88f) that burns air (28a).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) + both sides center support counter-rotating compressed air (28a), and rotating with a simple injection engine (88f) to enable vertical ascending and descending, various energy storage cycle coalescence engines and coalescence methods .   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low energy liquid oxygen (5K) + receiving electricity + both sides center support counter-rotating compressed air (28a) burning, rotating with a simple injection engine (88f), and various energy storage cycle coalescing engines enabling vertical ascent and descent Merge method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-cost liquid oxygen (5K) + electricity + high temperature water received + double-side center support counter-rotating compressed air (28a) burning, rotating with a simple injection engine (88f), and various energy storage cycles enabling vertical ascent and descent Merger engine and merger method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods that receive low-priced liquid oxygen (5K) + burn both sides center support counter-rotating compressed air (28a) and rotate with a simple injection engine (88f) to enable reverse injection.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-cost liquid oxygen (5K) + electricity received + both sides center support counter-rotating compressed air (28a) burned and rotated with a simple injection engine (88f) to enable reverse injection, and various energy storage cycle coalescence engines and coalescence Method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low energy liquid oxygen (5K) + electricity + high temperature water received + both sides center support counter-rotating compressed air (28a) burned and rotated together with simple injection engine (88f) to enable reverse injection combined with various energy storage cycles Organization and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low energy liquid oxygen (5K) + high temperature water received + both sides center support counter-rotating compressed air (28a) burned and rotated with a simple injection engine (88f) to enable reverse injection and various energy storage cycle combined engines Merge method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + high-temperature water (52b) supply liquid oxygen production, simple targeted multi-stage compressor (3t) + liquid oxygen production machine (88g) of electric drive to make simple target maximum suction speed various energy storage cycle coalescence engine and coalescence method .   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods for producing electricity with liquid oxygen, simple multistage compressor (3t) + liquid oxygen production machine (88g) with electric drive to maximize the target intake speed.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + superheated steam supply liquid oxygen production, simple multi-stage compressor (3t) + liquid oxygen production machine (88g) of electric drive to make simple target intake speed maximum, various energy storage cycle coalescence engine and coalescence method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + high temperature water (52b) supply liquid oxygen production, easy aiming to maximize suction speed, electric driven simple multi-stage compressor (3t) + liquid oxygen production machine (88g) producing various types of energy storage cycle coalescence engine And coalescing method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods for producing liquid oxygen as a supply of electricity and producing liquid oxygen as a simple multi-stage compressor (3t) + liquid oxygen production machine (88g) of electric drive that makes liquid oxygen production simple and aimed at maximum.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated Steam Supply Liquid Oxygen Production, Easy Aiming to Maximize Suction Speed Electricly Driven Simple Multistage Compressor (3t) + Liquid Oxygen Production Machine (88g) Various Energy Storage Cycle Coalition Engine and Coalescence Method .   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Supplying electricity + hot water (52b) to produce liquid oxygen, easy aiming to maximize the intake speed Electricly driven simple multistage compressor (3t) + liquid oxygen production machine (88g) producing compressed heat exchange superheated steam by sucking air Various energy storage cycle coalescence engine and coalescence method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity supply Liquid oxygen production, easy aiming to maximize intake speed Easy electric multi-stage compressor (3t) + liquid oxygen production machine (88g) Assorted various energy storage cycles to produce compressed heat exchange superheated steam by sucking air Organization and coalescence method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated steam supplied Liquid oxygen production, easy aiming to maximize suction speed Electricly driven simple multistage compressor (3t) + Liquid oxygen production machine (88g) Various energy to produce compressed heat exchange superheated steam by sucking air Storage cycle coalescence engine and coalescence method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + hot water (52b) + superheated steam supply liquid oxygen production, easy aiming to maximize suction speed, electric driven simple multi-stage compressor (3t) + liquid oxygen production machine (88g) sucking air through compression heat exchange Various energy storage cycle coalescence engine and coalescence method for producing steam.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + high temperature water (52b) supply Liquid oxygen production, easy aiming to maximize suction speed Electric simple multistage compressor (3t) + liquid oxygen production machine (88g) to produce liquid nitrogen, combined with various energy storage cycles Organization and coalescence method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engine and coalescence method for producing liquid nitrogen as an electric driven simple multistage compressor (3t) + liquid oxygen producing machine (88g) to supply electricity and produce liquid oxygen, to maximize the target intake speed.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated Steam Supply Liquid Oxygen Production, Easy Aiming to Maximize Suction Speed Electricly Driven Simple Multistage Compressor (3t) + Liquid Oxygen Production Machine (88g) Various Energy Storage Cycle Coalition Engines and Coalescence that Produce Liquid Nitrogen Method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + hot water (52b) is supplied to produce liquid oxygen, easy aiming to maximize the suction speed Electricly driven simple multistage compressor (3t) + liquid oxygen production machine (88g) to produce and supply liquid nitrogen (3D) Various energy storage cycle coalescence engines and coalescence methods to be supplied.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycles for supplying liquid nitrogen to the production and supply equipment (3D) as a simple multi-stage compressor (3t) + liquid oxygen production machine (88g) of electric drive that makes electricity supply liquid oxygen production, easily aims at maximum suction speed Merger engine and merger method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated steam supply Liquid oxygen production, easy aiming to maximize suction speed Electric drive simple multi-stage compressor (3t) + liquid oxygen production machine (88g) supply various liquid nitrogen to production supply equipment (3D) Energy conservation cycle coalescence engine and coalescence method.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Hot water (52b) supplied Liquid oxygen production, easy aiming to maximize suction speed Electric simple multistage compressor (3t) + liquid oxygen production machine (88g) produces liquid nitrogen + liquid oxygen + superheated steam Various energy storage cycle coalescence engines and coalescence methods to be supplied to a supply facility (3D).   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity supply liquid oxygen production, easy aiming to maximize the suction speed Electric simple multistage compressor (3t) + liquid oxygen production machine (88g) as liquid nitrogen + liquid oxygen + superheated steam to production supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods to be supplied.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + superheated steam supply Liquid oxygen production, easy aiming to maximize suction speed Electrically driven multistage compressor (3t) + liquid oxygen production machine (88g) as liquid nitrogen + liquid oxygen + superheated steam production supply equipment ( 3D) various energy storage cycle coalescence engines and coalescence methods.   Horizontal type moving blade water gravity turbine (8T) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed as electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + hot water (52b) + superheated steam supply liquid oxygen production, easy aiming to maximize suction speed, electric driven simple multistage compressor (3t) + liquid oxygen production machine (88g) as liquid nitrogen + liquid oxygen + superheat Various energy storage cycle coalescence engines and coalescence methods for supplying steam to the production and supply equipment (3D).   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engines and coalescence methods configured to maximize suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engines and coalescence methods that compress air as a configuration that maximizes the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescing engines and coalescing methods for compressing air (28a) as a configuration to maximize suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescing engines and coalescence methods for compressing one or more stages as a configuration for maximizing the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engines and coalescence methods for heating one to multiple stages of compressed water as a configuration that maximizes the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engines and coalescence methods for heating 1 to multi-stage compressed high-temperature water as a configuration for maximizing the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engines and coalescence methods for heating 1 to multi-stage compressed superheated steam as a configuration for maximizing the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engines and coalescence methods for heating water by 1 to multi-stage compression as a configuration for maximizing the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engines and coalescence methods for heating high-temperature water by 1 to multi-stage compression as a configuration for maximizing the suction speed.   As a configuration that maximizes the suction speed of a simple multistage compressor (3t) of a horizontal full-blade water gravity turbine (8T) with extremely low power generation and electric drive, with a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed. -Various energy storage cycle coalescence engine and coalescence method for heating superheated steam by multi-stage compression.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engine and coalescence method for producing superheated steam by compression as a configuration to maximize the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engines and coalescence methods that produce liquid oxygen + liquid nitrogen + superheated steam by compression as a configuration that maximizes the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engines and coalescence methods that produce liquid oxygen + liquid nitrogen + high pressure superheated steam by compression as a configuration that maximizes the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engine and coalescence method for producing liquid oxygen + liquid nitrogen + super high pressure superheated steam by compression as a configuration to maximize the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescing engines and coalescence methods for supplying the liquid oxygen + liquid nitrogen + superheated steam production / supply facility (3D) by compression as a configuration for maximizing the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engine and coalescence method for supplying to liquid oxygen + liquid nitrogen + high pressure superheated steam production and supply equipment (3D) by compression as a configuration for maximizing the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engine and coalescence method for supplying to liquid nitrogen + super high pressure superheated steam production and supply equipment (3D) by compression as a configuration to maximize the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engine and coalescence method for supplying to liquid oxygen + super high pressure superheated steam production and supply equipment (3D) by compression as a configuration for maximizing the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescing engines and coalescence methods for supplying to the production and supply facility (3D) of liquid oxygen + liquid nitrogen + super high pressure superheated steam by compression as a configuration for maximizing the suction speed.   A horizontal multi-blade hydrogravity turbine (8T) with a magnetic bearing load approaching zero and an ultra-high speed circumferential speed (8T), a simple multistage compressor (3t) + liquid oxygen generator (88g) with extremely low power generation and electric drive Various energy storage cycle coalescence engine and coalescence method for supplying electricity + liquid oxygen + liquid nitrogen + super high pressure superheated steam production and supply equipment (3D) by compression as a configuration for maximizing the suction speed.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engine and coalescence method for receiving low-cost liquid oxygen (5K) in a simple gas engine (88d) and fuel injection combustion in compressed air + compressed air.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescing engines and coalescence methods, in which low-cost liquid oxygen (5K) is received in a simple injection engine (88f) and fuel injection combustion in compressed air + fuel injection combustion in compressed air.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescing engines and coalescence methods that use low-cost liquid oxygen (5K) in a simple water injection engine (88e) and receive two types of theoretical combustion chambers: fuel injection combustion + compressed air fuel injection combustion.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods that make the simple gas engine (88d) receive low-cost liquid oxygen (5K), and receive two types of theoretical combustion chambers (4Q): fuel injection combustion + fuel injection combustion into compressed air.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving low-priced liquid oxygen (5K) in a simple injection engine (88f) Fuel injection combustion + Compressed air with two types of theoretical combustion chambers (4Q) and various energy storage cycles with an on-off valve (1Q) at one inlet Merger engine and merger method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-priced liquid oxygen (5K) is received into a simple water injection engine (88e), fuel injection combustion + compressed air into two types of theoretical combustion chambers (4Q), and one type of on-off valve (1Q) oxygen injection nozzle (6L) ) Various energy storage cycle coalescence engines and coalescence methods provided.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple gas engine (88d) receives cheap liquid oxygen (5K) Fuel injection combustion + Compressed air fuel injection combustion 2 types of theoretical combustion chamber (4Q) 1 type inlet valve (1Q) oxygen injection nozzle (6L) Various energy storage cycle coalescence engine and coalescence method comprising a fuel injection nozzle (6X).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-priced liquid oxygen (5K) received in simple injection engine (88f) Fuel injection combustion + Compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) One type inlet on-off valve (1Q) Oxygen injection nozzle (6L) Various energy storage cycle coalescence engines and coalescence methods for closing the fuel injection nozzle (6X) and the on-off valve (1Q).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-priced liquid oxygen (5K) is received into a simple water injection engine (88e), fuel injection combustion + compressed air into two types of theoretical combustion chambers (4Q), and one type of on-off valve (1Q) oxygen injection nozzle (6L) ) Fuel injection nozzle (6X) on-off valve (1Q) Closed oxygen fuel injection Combining various energy storage cycle coalescing engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple gas engine (88d) receives cheap liquid oxygen (5K) Fuel injection combustion + Compressed air fuel injection combustion 2 types of theoretical combustion chamber (4Q) 1 type inlet valve (1Q) oxygen injection nozzle (6L) A fuel injection nozzle (6X), an on-off valve (1Q), a closed oxygen fuel injection, combustion rotation, and various energy storage cycle coalescence engines and coalescence methods for increasing the rotational output.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-priced liquid oxygen (5K) received in simple injection engine (88f) Fuel injection combustion + Compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) One type inlet on-off valve (1Q) Oxygen injection nozzle (6L) A fuel injection nozzle (6X), an on-off valve (1Q), a closed oxygen fuel injection, combustion rotation output increase, two types (4Q), superheated steam (50), and various energy storage cycle coalescence engines and a coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-priced liquid oxygen (5K) is received into a simple water injection engine (88e), fuel injection combustion + compressed air into two types of theoretical combustion chambers (4Q), and one type of on-off valve (1Q) oxygen injection nozzle (6L ) Fuel injection nozzle (6X) Open / close valve (1Q) Closed oxygen fuel injection Combustion rotation output increase 2 types (4Q) Various energy storage cycle coalescence engines and coalescence that inject combustion gas (49) by superheated steam (50) injection Method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple gas engine (88d) receives cheap liquid oxygen (5K) Fuel injection combustion + Compressed air fuel injection combustion 2 types of theoretical combustion chamber (4Q) 1 type inlet valve (1Q) oxygen injection nozzle (6L) Fuel injection nozzle (6X) Open / close valve (1Q) Closed oxygen fuel injection Combustion rotation output increase 2 types (4Q) Superheated steam (50) injection Combustion gas (49) suction injection injection propulsion output increase Various energy conservation cycle coalescence Organization and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-priced liquid oxygen (5K) is received into a simple injection engine (88f), fuel injection combustion + compressed air into two types of theoretical combustion chambers (4Q), one type inlet / outlet valve (1Q) oxygen injection nozzle (6L) ) Various energy storage cycle coalescence engine and coalescence method provided in the fuel injection nozzle (6X).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) A simple water injection engine (88e) is supplied with cheap liquid oxygen (5K), fuel injection combustion + compressed air into two types of theoretical combustion chambers (4Q), one type inlet / outlet valve (1Q) oxygen injection nozzle ( 6L) Various energy storage cycle coalescence engines and coalescence methods for closing the fuel injection nozzle (6X) and the on-off valve (1Q).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple gas engine (88d) receives cheap liquid oxygen (5K), fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q), one type inlet / outlet valve (1Q) oxygen injection nozzle (6L ) Fuel injection nozzle (6X) on-off valve (1Q) Closed oxygen fuel injection Combining various energy storage cycle coalescing engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-priced liquid oxygen (5K) is received into a simple injection engine (88f), fuel injection combustion + compressed air into two types of theoretical combustion chambers (4Q), one type inlet / outlet valve (1Q) oxygen injection nozzle (6L) ) Fuel injection nozzle (6X), Open / close valve (1Q) Closed oxygen fuel injection combustion High pressure high temperature combustion gas (5M) Various energy storage cycle coalescence engine and coalescence method for injecting the outer periphery (6Y).   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Low-priced liquid oxygen (5K) is received into a simple injection engine (88f), fuel injection combustion + compressed air into two types of theoretical combustion chambers (4Q), one type inlet / outlet valve (1Q) oxygen injection nozzle (6L) ) Fuel injection nozzle (6X) Open / close valve (1Q) Closed oxygen fuel injection combustion High pressure high temperature combustion gas (5M) Outer periphery (6Y) Injected superheated steam (50) also outer periphery (6A) Merge method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple injection engine (88f) Receives low-priced liquid oxygen (5K), receives fuel injection combustion + compressed air into two types of theoretical combustion chamber (4Q), opens and closes one type of inlet / outlet valve (1Q) oxygen injection nozzle (6L) Fuel injection nozzle (6X) Open / close valve (1Q) Closed oxygen fuel injection combustion High pressure high temperature combustion gas (5M) Outer periphery (6Y) Rocket injection superheated steam (50) Outer periphery (6A) Various energy to increase rocket injection injection propulsion output Storage cycle coalescence engine and coalescence method.   Horizontal full-rotor blade water gravity turbine (8T) with magnetic bearing load approaching 0 and super high speed circumferential speed (8T) From electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple water injection engine (88e) Receives low-priced liquid oxygen (5K), receives fuel injection combustion + compressed air into two types of theoretical combustion chambers (4Q), one type inlet / outlet valve (1Q) oxygen injection nozzle (6L ) Fuel injection nozzle (6X) Open / close valve (1Q) Closed oxygen fuel injection combustion High-pressure high-temperature combustion gas (5M) outer periphery (6Y) Rocket injection superheated steam (50) also outer periphery (6A) rocket injection and water ahead Various energy storage cycle coalescence engines and coalescence methods for increasing suction injection propulsion output.   Horizontally-moving blade water gravity turbine (8T) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jet is injected vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) Opposite synchronous gear (4C) In-line co-rotating gear (4D) Rotating and rotating multiple power to generate electric drive solar heater (21) + simple multistage compressor (3t) + liquid oxygen production machine (88g) Storage cycle coalescence engine and coalescence method.   Horizontally-moving blade water gravity turbine (8T) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jet is injected vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) Various energy storage cycle coalescence engine and coalescence that rotate in series co-rotating gear (4D) to produce electric drive solar heater (21) + simple multistage compressor (3t) + liquid oxygen production machine (88g) for power generation with multiple turbines Method.   Horizontally-moving blade water gravity turbine (8T) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jet is injected vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) Various energy storage cycle coalescence engines and coalescence methods that rotate to form a cylindrical turbine blade group (8A) multiple power generation electric drive solar heater (21) + simple multistage compressor (3t) + liquid oxygen production machine (88g).   Horizontally-moving blade water gravity turbine (8T) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jet is injected vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) Various energy storage cycle coalescence engine and coalescence method to rotate into cylindrical turbine blade group (8A) 20 sets of electric drive solar heater (21) + simple multistage compressor (3t) + liquid oxygen production machine (88g) .   Horizontally-moving blade water gravity turbine (8T) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jet is injected vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) Rotating and rotating cylindrical turbine blade group (8A) 40 sets of electric drive solar heater (21) + simple multi-stage compressor (3t) + liquid oxygen generator (88g) .   Horizontally-moving blade water gravity turbine (8T) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jet is injected vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) Rotating cylindrical turbine blade group (8A) 80 sets of electric drive solar heater (21) + simple multi-stage compressor (3t) + various oxygen storage cycle coalescence engine and coalescence method .   Horizontally-moving blade water gravity turbine (8T) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jet is injected vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) Rotating cylindrical turbine blade group (8A) 100 sets of electric drive solar heater (21) + simple multi-stage compressor (3t) + liquid oxygen production machine (88g) .   Horizontally-moving blade water gravity turbine (8T) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jet is injected vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) Rotating cylindrical turbine blade group (8A) 150 sets of electric drive solar heater (21) + simple multistage compressor (3t) + various oxygen storage cycle coalescence engine and coalescence method .   Horizontally-moving blade water gravity turbine (8T) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jet is injected vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) Rotating and rotating cylindrical turbine blade group (8A) 200 sets of electric drive solar heater (21) + simple multistage compressor (3t) + liquid oxygen generator (88g) .   Various types of energy to drive a horizontal water turbine (8T) power generation electrical product + rocket combustion + jet combustion, etc., both sides center support simple water injection engine (88e) etc. Storage cycle coalescence engine and coalescence method.   Horizontal full-blade hydrogravity turbine (8T) power generation electrical product with magnetic bearing load approaching 0 + super high speed circumferential speed + two rocket combustion + two jet combustion two center support simple water injection engine (88e), etc. Various energy storage cycle coalescence engines and coalescence methods to be driven.   Horizontal full-blade water gravity turbine (8T) power generation electric product with magnetic bearing load approaching 0 + super high speed circumferential speed + rocket combustion 3 locations + jet combustion 3 locations, both sides centrally supported simple water injection engine (88e), etc. Various energy storage cycle coalescence engines and coalescence methods to be driven.   Horizontal full-blade hydrogravity turbine (8T) power generation electrical product with magnetic bearing load approaching 0 + super high speed circumferential speed + rocket combustion 4 locations + jet combustion 4 locations, both sides supported simple water injection engine (88e), etc. Various energy storage cycle coalescence engines and coalescence methods to be driven.   Horizontal type full-blade water gravity turbine (8T) power generation electric product with magnetic bearing load approaching 0 + super high speed circumferential speed + rocket combustion 5 locations + jet combustion 5 locations on both sides centrally supported simple water injection engine (88e), etc. Various energy storage cycle coalescence engines and coalescence methods to be driven.   Horizontal full-blade hydrogravity turbine (8T) power generation electrical product with magnetic bearing load approaching 0 + super high speed circumferential speed + rocket combustion 6 locations + jet combustion 6 locations on both sides centrally supported simple water injection engine (88e), etc. Various energy storage cycle coalescence engines and coalescence methods to be driven.   Various energy conservation cycles driven by both-side central support simple injection engine (88f) as horizontal full-blade water gravity turbine (8T) power generation electric product + rocket combustion + jet combustion with magnetic bearing load approaching 0 + super high speed circumferential speed Merger engine and merger method.   Horizontal full-blade hydrogravity turbine (8T) power generation electric product with magnetic bearing load approaching 0 + super high speed circumferential speed + two rocket combustion + two jet combustion two-point center support simple injection engine (88f) drive Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8T) power generation electric product with magnetic bearing load approaching 0 + super high speed circumferential speed + rocket combustion 3 locations + jet combustion 3 locations, both sides centrally supported simple injection engine (88f) drive Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8T) power generation electric product with magnetic bearing load approaching 0 + super high speed circumferential speed + rocket combustion 4 locations + jet combustion 4 locations driven on both sides centrally supported simple injection engine (88f) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8T) power generation electric product with magnetic bearing load approaching 0 + super high speed circumferential speed + rocket combustion 5 locations + jet combustion 5 locations driven on both sides centrally supported simple injection engine (88f) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal full-blade hydrogravity turbine (8T) power generation electrical product with magnetic bearing load approaching 0 + ultra-high speed circumferential speed + rocket combustion 6 locations + jet combustion 6 locations driven on both sides centrally supported simple injection engine (88f) Various energy storage cycle coalescence engines and coalescence methods.   Horizontal type full-blade water gravity turbine (8T) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-priced electricity production, simple water supporting both sides center Various energy storage cycle coalescence engine and coalescence method for jetting the maximum amount of air bubbles into the bottom vertical parallel plate (9Q) by using a simple water injection engine such as an injection engine (88e) as a ship (7g).   Horizontal type full-blade water gravity turbine (8T) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-priced electricity production, simple water supporting both sides center Various energy storage cycle coalescence engines and coalescence methods for jetting a maximum amount of bubbles into a bottom vertical parallel plate (9Q) as a drive screw injection vessel such as an injection engine (88e).   Horizontal type full-blade water gravity turbine (8T) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-priced electricity production, simple water supporting both sides center Various energy storage cycle coalescence engine and coalescence method that maximizes the air flotation by making the watercraft (7g), such as an injection engine (88e), a simple water injection engine ship (7g) wide.   Horizontal type full-blade water gravity turbine (8T) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-priced electricity production, simple water supporting both sides center Various energy storage cycle coalescing engines and coalescence methods that make the injection engine (88e) driven screw-injected ship wide and have a bottom vertical parallel plate (9Q) wide to maximize the amount of air floating.   Horizontal type full-blade water gravity turbine (8T) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-priced electricity production, simple water supporting both sides center Various energy storage cycle coalescing engine and coalescence method for maximizing friction reduction by making the watercraft (7g), such as a driving simple water jet engine such as an injection engine (88e), wide in the bottom vertical plate (9Q).   Horizontal type full-blade water gravity turbine (8T) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-priced electricity production, simple water supporting both sides center Various energy storage cycle coalescing engines and coalescence methods for making a screw-injected ship such as an injection engine (88e) wide and having a bottom vertical parallel plate (9Q) wide to maximize friction reduction.   Horizontal all-blade water gravity turbine (8T) power generation electric manufacturing, receiving liquid oxygen (5K) and making the compression volume 21/60000 of air compression theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion injection propulsion + Various energy storage cycle coalescing engine and coalescence method to make a simple injection engine (88f) rotary blade injection airplane (7j) with both side center support counter-rotating compressed air (28a) combustion.   Horizontal all-blade water gravity turbine (8T) power generation electricity production liquid oxygen (5K) + electricity received, theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion injection propulsion + both sides center support counter-rotating compressed air ( 28a) Combustion simple injection engine (88f) Rotary blade injection airplane (7j) Various energy storage cycle coalescence engine and coalescence method.   Horizontal all-blade water gravity turbine (8T) power generation electric manufacturing, receiving liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion propulsion + double side center support double reversal Various energy storage cycle coalescing engine and coalescence method to make a simple injection engine (88f) rotary blade injection airplane (7j) with compressed air (28a) combustion.   A horizontal full-blade hydrogravity turbine (8T) power generation and electrical manufacturing company that receives liquid oxygen (5K) and has a theoretical combustion chamber (4Q) air suction flow path that has a compression volume of 21/60000 of air compression. Various energy storage cycle coalescing engine and coalescence method to make a simple injection engine (88f) rotary blade injection airplane (7j) with high pressure fuel combustion injection propulsion + both center support counter-rotating compressed air (28a) combustion.   Horizontal full-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, equipped with theoretical combustion chamber (4Q) air suction channel, multiple ultrahigh pressure fuel combustion injection propulsion + both sides center support Various energy storage cycle coalescing engine and coalescence method to make a simple injection engine (88f) rotary blade injection airplane (7j) with counter-rotating compressed air (28a) combustion.   Horizontal all-blade water gravity turbine (8T) power generation electric manufacturing, liquid oxygen (5K) + electricity + high temperature water is received, multiple combustion combustion propulsion including multiple theoretical combustion chamber (4Q) air suction channel + Various energy storage cycle coalescing engine and coalescence method to make a simple injection engine (88f) rotary blade injection airplane (7j) with both side center support counter-rotating compressed air (28a) combustion.   A horizontal full-blade hydrogravity turbine (8T) power generation and electrical manufacturing company that receives liquid oxygen (5K) and has a theoretical combustion chamber (4Q) air suction flow path that has a compression volume of 21/60000 of air compression. Various energy storage cycle coalescence engine and coalescence method driven by a simple injection engine (88f) rotary blade injection airplane (7j) with high pressure fuel combustion injection propulsion + both center support counter-rotating compressed air (28a) combustion.   Horizontal full-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, equipped with theoretical combustion chamber (4Q) air suction channel, multiple ultrahigh pressure fuel combustion injection propulsion + both sides center support A simple injection engine (88f) rotating blade injection airplane (7j) driven by counter-rotating compressed air (28a) combustion, and various energy storage cycle coalescence engines and coalescence methods.   Horizontal all-blade water gravity turbine (8T) power generation electric manufacturing, liquid oxygen (5K) + electricity + high temperature water is received, multiple combustion combustion propulsion including multiple theoretical combustion chamber (4Q) air suction channel + Various energy storage cycle coalescence engine and coalescence method for driving a simple injection engine (88f) rotating blade injection airplane (7j) with both-side center support counter-rotating compressed air (28a) combustion.   A simple injection engine (88f) with a plurality of theoretical combustion chambers (4Q) that receive liquid oxygen (5K) and make the compression volume 21/60000 of air compression, produced by horizontal full-blade water gravity turbine (8T) generator ) Rotary blade jet airplane (7j) Various energy storage cycle coalescing engine and coalescence method for driving.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88d) and a rotary wing airplane (7i) as counter-rotating compressed air (28a) combustion.   Horizontal all-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88d) and driving a rotorcraft (7i).   Received liquid oxygen (5K) + electricity + hot water from horizontal full-blade hydrogravity turbine (8T) power generation electricity production, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88d) and a rotary wing airplane (7i) as combustion.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engines and coalescence methods for driving a rotary wing airplane (7i) by driving one or more simple gas engines (88d) as counter-rotating compressed air (28a) combustion.   Horizontal all-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion As a simple gas engine (88d), various energy storage cycle coalescing engines and coalescence methods for driving a plurality of rotary wing airplanes (7i).   Received liquid oxygen (5K) + electricity + hot water from horizontal full-blade hydrogravity turbine (8T) power generation electricity production, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air ( 28a) Various energy storage cycle coalescing engines and coalescence methods for driving a simple gas engine (88d) 1 to plural and driving a rotary wing airplane (7i) as combustion.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engines and coalescence methods for driving a rotary wing airplane (7i) by driving one or more simple gas engines (88d) as counter-rotating compressed air (28a) combustion.   Horizontal all-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion As a simple gas engine (88d), various energy storage cycle coalescing engines and coalescence methods for driving a plurality of rotary wing airplanes (7i).   Received liquid oxygen (5K) + electricity + hot water from horizontal full-blade hydrogravity turbine (8T) power generation electricity production, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air ( 28a) Various energy storage cycle coalescing engines and coalescence methods for driving a simple gas engine (88d) 1 to plural and driving a rotary wing airplane (7i) as combustion.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88d) and a rotary wing airplane (7i) as counter-rotating compressed air (28a) combustion.   Theoretical combustion chamber (4Q) that receives liquid oxygen (5K) and makes the compression volume 21/60000 of air compression of horizontal full-blade hydrogravity turbine (R) power generation electricity production. Various energy storage cycle coalescence engines and coalescence methods for rotating a simple gas engine (88d) driven rotor blade (7B) and driving a rotorcraft airplane (7i) as counter-rotating compressed air (28a) combustion.   Horizontal all-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion As a simple gas engine (88d) driven rotor blade (7B) rotating and driving the rotor blade airplane (7i), various energy storage cycle coalescing engines and coalescence methods.   Received liquid oxygen (5K) + electricity + hot water from horizontal full-blade hydrogravity turbine (8T) power generation electricity production, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air ( 28a) A simple gas engine (88d) driven rotor blade (7B) as a combustion, and various energy storage cycle coalescence engines and coalescence methods that rotate and drive the rotor blade airplane (7i).   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engine and coalescence method for driving a rotary blade airplane (7i) by rotating a simple gas engine (88d) 1 to a multi-drive rotor blade (7B) multiple times as counter-rotating compressed air (28a) combustion.   Horizontal all-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion As a simple gas engine (88d) 1 to a plurality of rotating rotor blades (7B) and a plurality of energy storage cycle combining engines and combining methods for driving a rotating blade airplane (7i).   Received liquid oxygen (5K) + electricity + hot water from horizontal full-blade hydrogravity turbine (8T) power generation electricity production, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air ( 28a) A simple gas engine (88d) 1 to a plurality of driving rotor blades (7B) as a combustion, various energy storage cycle coalescence engines and a coalescence method for driving the rotor blade airplane (7i) by a plurality of rotations.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engine and coalescence method for driving a rotary blade airplane (7i) by rotating a simple gas engine (88d) 1 to a multi-drive rotor blade (7B) multiple times as counter-rotating compressed air (28a) combustion.   Horizontal all-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion As a simple gas engine (88d) 1 to a plurality of rotating rotor blades (7B) and a plurality of energy storage cycle combining engines and combining methods for driving a rotating blade airplane (7i).   Received liquid oxygen (5K) + electricity + hot water from horizontal full-blade hydrogravity turbine (8T) power generation electricity production, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air ( 28a) A simple gas engine (88d) 1 to a plurality of driving rotor blades (7B) as a combustion, various energy storage cycle coalescence engines and a coalescence method for driving the rotor blade airplane (7i) by a plurality of rotations.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engines and coalescence methods for rotating a simple gas engine (88d) driven rotor blade (7B) and driving a rotorcraft airplane (7i) as counter-rotating compressed air (28a) combustion.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88d) driven simple injection engine (88f) as counter-rotating compressed air (28a) combustion.   Horizontal all-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion Various energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88d) and a simple injection engine (88f).   Received liquid oxygen (5K) + electricity + hot water from horizontal full-blade hydrogravity turbine (8T) power generation electricity production, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air ( 28a) Various energy storage cycle coalescing engine and coalescence method for driving a simple gas engine (88d) driven simple injection engine (88f) as combustion.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88d) 1 to a multiple drive simple injection engine (88f) as counter-rotating compressed air (28a) combustion.   Horizontal all-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion As a simple gas engine (88d) 1 to multiple drive simple injection engine (88f) various energy storage cycle coalescence engine and coalescence method.   Received liquid oxygen (5K) + electricity + hot water from horizontal full-blade hydrogravity turbine (8T) power generation electricity production, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88d) to a multiple drive simple injection engine (88f) as combustion.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88d) 1 to a multiple drive simple injection engine (88f) as counter-rotating compressed air (28a) combustion.   Horizontal all-blade hydrogravity turbine (8T) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air (28a) combustion As a simple gas engine (88d) 1 to multiple drive simple injection engine (88f) various energy storage cycle coalescence engine and coalescence method.   Received liquid oxygen (5K) + electricity + hot water from horizontal full-blade hydrogravity turbine (8T) power generation electricity production, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support counter-rotating compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88d) to a multiple drive simple injection engine (88f) as combustion.   Theoretical combustion chamber (4Q) of super-high pressure fuel combustion + both-side center support that receives liquid oxygen (5K) and produces a compression volume of 21/60000 of air compression by horizontal full-blade water gravity turbine (8T) generator A simple gas engine (88d) driven simple injection engine (88f) as a counter-rotating compressed air (28a) combustion.