JP2014074370A - 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 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

6 types of annular turbine blades 8c group assembly assembly for 6 types of reverse rotation in the cylindrical shaft device respectively aiming at Mach 30 water drive by the liquid pressure injection speed + gravitational acceleration acceleration in vacuum and the super high speed circumferential speed. The vertical rotor blade hydrogravity turbine 8V power generation uses a repulsive permanent magnet 9B + attractive permanent magnet 9C to make the bearing load close to 0 and an ultra-high speed peripheral speed, and a double reversal magnetic device 85 + a horizontal axis 1h Double reversal, 100 pairs of gravity turbines with 100 sets of vibration reduction head 828m, addition of gravitational acceleration during the increase in vacuum of the largest unutilized renewable energy of the earth to existing pumped storage power generation + addition of high speed injection such as Mach 3 + Unlimited number of turbines and heads, for example, Mach 28 and so on, water injection aiming at gravitational acceleration in vacuum, and heads of 500 to 828m, 100 sets of turbines, etc. A simple multistage compressor 3h + liquid oxygen production machine 88l close to both sides center support bearing combined load of water gravity turbine 8V power generation electric drive and electric product drive as the power generation that requires experimentation of fuel cost 0 resource price 0 experiment of reactor core abolition And simple multi-stage compressor 3h connection such as simple gas engine 88m, simple water injection engine 88n, simple injection engine 88o, etc. 24 ~ 200MPa high temperature water ~ superheated steam 50heat + liquid air 28a cold storage divided into electricity + liquid air cold + high temperature water ~ superheated steam heat supply equipment 3D Vehicles and airplanes are driven. For example, ships, vehicles, airplanes, etc. contain liquid oxygen and receive drive, and the compression volumetric power is 21/60000 volumetric power of air compression. In order to make the compression pressure of liquid oxygen or water 20 times that of air compression, etc., it is possible to drive the rotational force of a simple gas engine 88m, or to promote the combined injection propulsion of the simple injection engine 88o or the simple water injection engine 88n. Promotion of natural phenomena 2a Supply nitrogen, oxygen and CO2 to seawater Increase microorganisms and seaweeds, greatly increase food such as fish in the food chain, etc., and drive CO2 emissions and fuel costs by driving airplanes and automobiles 1/10 or 1 / 500,000 expense space arrival aim, airplane and ship aim at 10 times speed, and relates to the technology of various energy conservation cycle coalescence engines and various energy conservation coalescence methods.

  The most existing car-driven reciprocating engine in the world consumes enormous amount of fuel due to air compression, and is a vertical full-rotor blade water gravity turbine 8V vacuum water gravity acceleration power generation electric manufacture + electricity + liquid air cold + hot water 52a ~ superheat Supply as steam 50 heat supply facility 3D, superheated steam is injected into methane hydrate under permafrost land or underwater, methane and water are divided into methane recovered with liquid nitrogen cooled liquid methane, liquid air is liquid oxygen into liquid oxygen chamber 5K Received at 5K and compressed to liquid oxygen 5K, compression volume work rate to 21/60000 volume work of air compression, 24 to 200 MPa ultra high pressure compression injection, liquid oxygen 5K + liquid fuel 1b + high temperature water 52a to ultra high pressure The fuel is injected in the compression combustion chamber 4Q inner circumference, heated to an ultra-high temperature or optimum temperature, and supplied and injected into the combustion chamber 4Q. + Super high-pressure fuel high-temperature combustion The high-temperature water 52a of the high-pressure high-temperature water heating pipe 5H is heated to superheated steam 50, and even with liquid oxygen 0, both sides of the central support bearing load coalesced, including the ability to drive a simple gas engine 88m, In the study of ultra-high speed inversion, the combustion gas 49 is sucked and injected from the superheated steam rocket nozzle 6A as the superhigh pressure combustion gas 49 + superheated steam 50 in the theoretical combustion chamber 4Q, and the simple gas engine 88m is driven to drive the automobile. Driving various vehicles such as cultivator and propeller 7A, rotor blade 7B and screw 7C, driving various vehicles, propeller airplane and screw ship, fuel cost 0 Fuel cost 1 by using liquid oxygen 5K for power generation electricity production The present invention relates to technologies for various energy storage cycle coalescence engines and coalescence methods aiming at the world's best operating profit rate with a target of 10/10 speed.

  The existing jets are also blocked by the stationary blades, and the stationary blades 0 output and the stationary blades, etc. consume a huge amount of fuel due to air compression, and the rotational output and injection propulsion output are negligible. Aiming at the aim of propulsion injection of liquid compression simple injection engine 88o combined with space rocket and jet, vertical multi-blade water gravity turbine 8V power generation electric drive many simple multistage compressor 3h etc. Heat pump 1G + solar heater 21 By heat production, 24 to 200 MPa high-temperature water to superheated steam temperature 50 + liquid air cold heat 28a are divided and stored, and as an electric + liquid air cold heat + high-temperature water 52a to superheated steam 50 heat supply equipment 3D, the propulsion of the airplane is liquid oxygen 5K + liquid fuel 1c + high-pressure high-temperature water 52a is received, and the compression volume work rate is compressed by liquid oxygen compression to ultra-high pressure at 21/60000 volume work rate of air compression. Fuel injection pipe 1L high pressure high temperature water heating pipe 5H oxygen heating pipe 5F is set to the optimum heating temperature, such as not shown in single combustion engine 88o theoretical combustion chamber 4Q inner circumference view, fuel control valve 25b + oxygen control valve 24D + superheated steam control not shown The valve 25 is opened, and each of them is injected and burned into the open / close valve 1Q closed theoretical combustion chamber 4Q aiming at one or more theoretical air-fuel ratio ultra-high pressure combustion, and heat recovery is performed with the superheated steam 50 as multiple combustion of the oxygen injection nozzle 6L fuel injection nozzle 6X Superheated steam rocket nozzle 6A injection + combustion gas injection nozzle 6Y injection, aiming for combined injection such as rocket injection and suction injection, super high-speed linear counter-rotating compressed air 28a + combustion gas over 49 when both sides center support bearing load combined zero approach With high-speed linear injection rotation output, superheated steam rocket nozzle 6A + combustion gas injection nozzle 6Y 200MPa in rocket outer box 77B Aiming for 1 / 500,000 of the existing cost, it is possible to make day trips anywhere on the earth, such as 16 rounds of the earth in a day with space flight close to zero fuel cost, and the world's best profit rate with various space return planes The present invention relates to a technology for combining various energy storage cycle coalescence engines and coalescence methods.

  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, and the air compressor of the liquid oxygen production machine 88l is also added to the use of simple multistage compressor 3h which is theoretically simple, and the vertical all-blade water gravity turbine 8V generator electric drive multistage simple multistage compressor 3h isothermal pump 1G compression, solar heater 21 solar heating air is compressed high temperature, high pressure high temperature water heating pipe 5H heat recovery divided storage heat production, 24-200MPa high temperature water 52a ~ superheated steam 50 heat + Liquid air 28a Cold storage and storage, electricity + liquid air cold + high temperature water 52a to superheated steam 50 warm heat supply equipment 3D, liquid oxygen 5K + liquid fuel 1c + high temperature water 52a receiving process Aiming at pump compression of 200 MPa, the liquid oxygen control valve 5T + liquid fuel control valve 1K + water control valve 5Q (not shown) are opened and heated to the optimum temperature on the inner periphery of the simple water injection engine 88n theoretical combustion chamber 4Q, respectively, and both sides are supported at the center. The simple water injection engine 88n and the simple gas engine 88m approaching the bearing load coalescence 0 are driven to make the water suction injection propulsion of the simple water injection engine 88n and the screw 7C rotation promotion of the simple gas engine 88m, 10 times the existing ship speed. For the purpose of speed and 1/10 fuel cost, the screw propulsion simple gas engine 88m exhaust is the bottom bottom exhaust injection propulsion, and the natural phenomenon is accelerated in the process of friction reduction injection propulsion to supply oxygen, nitrogen, CO2 etc. into the sea Various energy conservation cycle coalescence machines aiming at the world's highest profit rate by increasing the food of human beings that multiply microorganisms, phytoplankton, seaweeds, corals and fish And on the technology of the united way.

  Considering the elementary school science without brainwashing, the existing best steam turbine power generation at atmospheric pressure and speed and volumetric capacity kg weight m / sec is slightly less than 1/1700 of the vertical all-blade water gravity turbine 8V power efficiency. The steam speed is blocked and the stationary vanes with zero output are alternately half-damped with the moving blades, the steam speed 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 The natural temperature rise is impossible, the abnormal weather without the upper limit is increased, and the danger that mankind approaches extinction by the 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 will be the existing steam turbine power generation. It is expected to generate a huge amount of power generation such as 1700 times power generation 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, in-vacuum water gravity acceleration Mach 30 that requires further experimentation is aimed at infinite power generation with zero fuel cost, and the vertical blade dynamic gravity turbine 8V power generation inner blade 60c As the outer rotor blade 60d, each of them aims at fully automatic machining and assembly, including the assembly assembly part 9M assembly, and the number of parts 1/100. Earth Driven by water gravity energy aimed at the acceleration of acceleration of gravitational acceleration acceleration in large vacuum 30, shifted to expanding the use of low-cost electricity with zero fuel cost power generation with a large amount of inexpensive water resources, and solar heating the air with solar heater 21 Water gravity turbine 8V Fuel cost 0 Power generation Electric drive, 1 to multi-stage simple multi-stage compressor 3h + Liquid oxygen production machine 88l Compressed multiple times and heat recovered multiple times, 24 to 200MPa hot water 52a to superheated steam temperature 50+ Electricity, liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D, which is divided and stored in liquid air cold heat 28a, is received by the liquid oxygen chamber 5K, storage battery, etc. For a short time 1/10 fuel cost drive or 10 times speed drive, space flight, air flotation ship, etc., storage battery drive and electric drive of extremely cheap power generation, and prevention of global warming with little CO2 exhaust There is a background that can be obtained.

  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, when the vertical all-blade water gravity turbine 8V initial speed additional vacuum water gravity acceleration power generation is used, there is a background that the fuel cost is low-cost power generation, and heat recovery of a huge amount of methane hydrate sleeping in the sea near Japan or permafrost Considering the case in elementary school science, heating with zero fuel cost 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 the fuel stage 0 power generation electric drive, multiple stage simple multistage compressor 3h + liquid oxygen production machine 88l. Collected and stored in cold liquid oxygen 5K and liquid nitrogen 5L + hot high-temperature water 52a to superheated steam 50, and injecting superheated steam 50 into methane hydrate under permafrost, for example, in the process of infinite use of heat Methane is recovered with liquid nitrogen-cooled liquid methane and superheated steam injection is continued forever, and the methane recovery enclosure is made to graze pasture with appropriate temperature and many water droplets, increasing the use of human food and increasing heat The aim is to reach 1 / 500,000 as the cost of reaching the universe as an automobile, ship and spacecraft that is driven by liquid-air coalescence. In the process of driving the ship, the natural phenomenon is accelerated 2a, and microorganisms, seaweeds, corals, etc. The food of fish such as the human race increased in 殖食 products 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 have been 43 applications, including PCT, from the filing date of Japanese Patent Application No. 2012-202141 to September 14, 2012.

  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 To make the ocean floor rock expansion earthquake and tsunami huge, the Tonankai earthquake and tsunami also become huge, increase the risk of human extinction, prevent heavy rain in seawater, prevent sea warming such as seawater temperature rise 0, 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.

A vertical multi-blade hydrogravity turbine 8V fuel cost 0 power generation low cost electric drive all, solar heating 21 + both sides center support bearing load coalescence 0 approach, heat production by simple multistage compressor 3h + liquid oxygen production machine 88l , Electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D rocket that compresses the received liquid oxygen 5K to 21/60000 volumetric compression work rate of air compression, and is easy for ultra high pressure combustion and ultra high temperature combustion As the combustion theoretical combustion chamber 4Q, the stoichiometric air-fuel ratio combustion is enabled by heat exchange heating with the superheated steam 50 to high temperature water 52a, and combined with the rocket combustion and the existing technical improvement invention, the combined theoretical combustion chamber 4Q drive both sides center support A simple gas engine 88m, a simple water injection engine 88n, and a simple injection engine 88o that are close to the bearing load coalescence are used to drive and inject vehicles, such as automobiles, ships, and airplanes. Proceeding forward, ship propulsion propulsion drive with quick levitation propulsion and natural phenomenon acceleration 2a with short rocket injection, supplying oxygen, nitrogen, CO2 etc. into the sea, microbes, phytoplankton, seagrass, coral and fish Increase the food of the human race, etc., and the airplane also makes 16 rounds of the earth in a full day of space flight with a short rocket injection, etc. 100% monopoly, top secret manufacturing, power generation, ships, airplanes, automobiles, etc., making it the best in the world for profit margins and the best for new jobs, dredging, concentrated torrential rain, typhoon, seasonal wind, heavy rain in seawater and earthquake tsunami Prevent global warming and postpone human extinction.

The vertical blade hydrogravity turbine 8V fuel cost 0 low-cost power generation, the effect of transmitting the horizontal axis 1h double reversal to 100 sets, etc. is very large, the turbine blade 8c of each of the inner blade 60c and the outer blade 60d, Inner inlet wing 60f Inner intermediate wing 60h Inner outlet wing 60j Outer inlet wing 60e Outer intermediate wing 60g Outer outlet wing 60k, 6 types + 6 types for reverse rotation etc. 100 sets of fully automatic manufacturing etc. are also very effective, Boilers and nuclear reactors are unnecessary, and the effect of simplifying the structure is very large. The vertical all-blade hydrogravity turbine 8V power generation similar to the enumeration of the existing steam turbine final blade group is the same as the maximum speed final blade group. In comparison with vacuum driving, water vapor of 1,700 times the volume of water at atmospheric pressure of 100 ° C. and 760 mmHg is 760 mmHg × 1700 = 30 mmHg × V2 times volume of water according to Boyle's law at an exhaust temperature of 29 ° C. and a degree of vacuum of 30 mmHg. It becomes steam, V2 = 760/30 x 1700 = 43,000 times the volume of water vapor, and 1/100 volume water power generation produces 430 times the amount of power generation. In other words, the vertical steam turbine water gravity turbine 8V power generation, which lists the existing steam turbine maximum speed power blade group, is much more advantageous at the output 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 Gravity acceleration = Mach 30 is targeted, and the experimental result is correct, such as aiming at 30 times the amount of power generation, 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 As a result of the increase in the super high pressure high temperature high temperature combustion near the center of the theoretical combustion chamber 4Q and the super high pressure superheated steam 50, etc., the simple gas engine 88m, the simple water injection engine 88n, The simple injection engine 88o has the effect of being able to drive the super-high speed most efficiently, and in addition to the effect of aiming for a fuel cost of 1/10 or 10 times the speed of automobiles, ships and airplanes, the space arrival cost is reduced to 1 / of that of existing space rockets. There is an effect that can be aimed at 500,000 expenses, and the wheels, screws 7C, propellers 7A and rotor blades 7B are driven by simple gas engines 88m, and ships, airplanes, automobiles, etc. are driven by rotational force, Ship propulsion propulsion drive speeds up natural phenomena 2a and has the effect of increasing the digestive capacity of underwater microorganisms such as CO2 to tens of thousands of times in forests, etc. Proliferating phytoplankton, seaweeds, corals, etc., food chains, etc. The world's most profitable marine food, such as fish, fish, and deserts, droughts, torrential rains, typhoons, seasonal winds, earthquake tsunamis, etc. There is an effect to aim at one.

Plane drive receives liquid oxygen + high temperature water from electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D, which is driven by electric fuel driven by a zero-cost all-blade water gravity turbine 8V power generation, theoretical combustion chamber 4Q Ultra-high pressure water, ultra-high pressure fuel, etc. are optimally heated by the high-temperature water heating pipe 5H etc. on the inner circumference, the fuel injection nozzle 6X + oxygen injection nozzle 6L is opened, and oxygen gas + fuel gas is mixed and ignited and burned near the center of several locations. As a rocket combustion theoretical combustion chamber 4Q that optimally heats the fuel + oxygen + high-temperature water heating pipe 5H in the inner periphery of the theoretical combustion chamber 4Q and heats it to the super-high pressure / high temperature superheated steam 50, etc. Drives a simple injection engine 88o with two or more center support bearings combined to approach zero, making the space arrival cost 1 / 500,000 that of existing space rockets, and fuel injection 10 times the same fuel cost Guess It has the effect of aiming at the prime of space utilization with its output. For example, the jet propulsion output is 100 times the pressure of existing jets, 10 times the calorie injection, and 1000 times the propulsion output for the short time. With the aim of injection propulsion, the superheated steam injection speed and combustion gas injection speed are the highest in vacuum, so the return speed of existing space rocket ground mass injection and Mach 28 etc. is considered the worst, and the return speed is Mach 3 or less when the space ascends From around the highest flight altitude of an existing aircraft, increase the rocket injection amount of high pressure high temperature combustion gas 49 + high pressure high temperature superheated steam 50-200MPa, make 16 rounds of the earth a day, etc. There is an effect that can aim for the prime use of space.

60A60B9C9B9M explanatory drawing of vertical type moving blade water gravity turbine 8V (Example 1) Explanatory drawing of the turbine blade 8c of the inner shaft device 60A and the outer shaft device 60B (Example 2) Explanatory drawing of the solar heater 21 (Example 3) Explanatory drawing of the liquid oxygen production machine 88l (Example 4) Explanatory drawing of simple multistage compressor 3h (Example 5) Illustration of simple gas engine 88m (Example 6) Explanatory drawing of the simple water injection engine 88n (Example 7) Explanatory drawing of the simple injection engine 88o (Example 8) Illustration of simple gas locomotive 7r (Example 9) Explanatory drawing of simple gas engine ship 7s (Example 10) Explanatory drawing of the simple gas engine airplane 7t (Example 11) Explanatory drawing of the simple water injection engine ship 7u (Example 12) Explanatory drawing of the simple injection engine airplane 7v (Example 13) Explanatory drawing of rotary wing airplane 7w (Example 14) Explanatory drawing of the rotary wing jet airplane 7x (Example 15) Illustration of oversized Osprey 7y (Example 16) Illustration of Large Osprey 7z (Example 17)

  The use of gravity acceleration power generation in a vacuum for a long period of time with brainwashing such as existing steam turbine power generation is blocked, and the target of 43,000 times the power generation amount of one existing steam turbine power generation is blocked by one unit of 100 sets, for example, the existing best steam turbine The power generation pressure, the same speed, the same volumetric power, kg weight m / sec, are reduced to 1/1700 of the water power, and the stationary vanes with output 0 are alternately arranged with the moving blades to dam and close the rotation output to 0. The total heat generated by the steam turbine power generation increases by 7 degrees in the seawater temperature, the fish drastically decreases, the bottom bedrock expands into earthquakes and tsunamis, and the typhoons, seasonal winds, and tornadoes in the sea around Japan become huge around 20 years 100 m / s For example, there is a risk of drastic reduction of food and human extinction by providing salt coating on land around 50 to 100 years, such as heavy rain of suctioned seawater expected over the sea. That is, since the invention becomes too large due to many fatal defects of the existing technology, the description of the invention is described in the description of the reference, and the part which has been repeatedly described in the previous application is omitted, and the horizontal axis 1h counter-rotating vertical type whole moving blade Three types of examples other than the water gravity turbine 8V will be used instead, and the use of existing technology such as magnetic bearings will challenge the realization of the invention, omitting common sense, and support the center of both sides of the gravity acceleration power generation electric product drive in vacuum A simple multi-stage compressor 3h + liquid oxygen production machine 88l approaching a combined bearing load 0, a simple gas engine 88m, a simple water injection engine 88n, and a simple injection engine 88o are driven.

Fig. 1 Vertically moving blade water gravity turbine 8V power generation aiming to the limit such as Mach 30 driving with gravity acceleration in water + water injection speed is designed to support large and ultra high speed because the power generation amount is proportional to kg weight m / sec. The inner shaft device 60A and the outer shaft device 60B are each provided with a repulsive permanent magnet 9B and an attractive permanent magnet 9C. Aiming at infinite increase in rotation speed and rotation outer diameter, water 3E is raised by 50 ~ 828m etc. by specific material rising device 2F, water 3E Mach 3 injection by specific material accelerator 6W, aiming at the same speed as shooting star vacuum Mid-gravity acceleration acceleration Mach 30 aiming drive, turbine blade 8c super high speed turbine peripheral speed record update aiming, vertical axis moving blade hydrogravity turbine 8V power generation driven 100 pairs etc. one after the other with the horizontal axis 1h gear West, The side shaft device 60A includes an inner rotor blade 60c, inner inlet blades 60f + inner intermediate blades 60h1 to plural + inner outlet blades 60j, and the outer shaft device 60B includes outer inlet blades 60e + outer intermediate blades 60g plural + outer. Equipped with outlet blade 60k to facilitate full-automatic processing and assembly, and each rotor blade is configured to fit and assemble the fitting assembly portion 9M. In the manufacturing process, the inner rotor blade 60c and the outer rotor blade 60d are replaced with the six components in FIG. 2 + the six components for reverse rotation, the outer inlet blade 60e + the inner inlet blade 60f + outer. Intermediate blade 60g + Inner intermediate blade 60h + Inner outlet blade 60j + Outer outlet blade 60k, 6 parts + 6 parts for reverse rotation are fitted as 100 sets by fully automatic casting, fully automatic processing, cemented carbide surface treatment, etc. Assembly part 9M assembly etc. Equipped with a gravitational acceleration unit 1g that accelerates water in a vacuum as an existing technology, including permanent magnets and electromagnets that support mass, making mass production easy and eliminating the need for boilers and nuclear reactors. A horizontal shaft 1h through-hole to be driven is provided, the generator 1 is driven plurally outside the turbine outer box 77a, and the multistage saddle-type all-blade water gravity turbine 8V is driven alternately in the rotational direction, and the gravitational acceleration unit 1g is accelerated. The next turbine 8V is driven one after the other and the horizontal axis 1h is alternately driven to make the structure simple and inexpensive electric product infinite and electric driving infinite, leading to the world's most profitable energy storage cycle coalescence engine power generation and coalescence method power generation To do.

The vertical all blade hydro-gravity turbine 8V power generation turbine blade 8c is existing in the turbine outer box 77a with six shape parts for the inner shaft device 60A and outer shaft device 60B and six shape parts for reverse rotation, one set each of 60e60f60g60h60j60k. The highest building 828m has 100 to 200 sets such as one vertical unit, and the thrust bearing 80a of the inner shaft device 60A and the outer shaft device 60B has a bearing 80 and a horizontal shaft 1h gear for the purpose of zero bearing load using magnetism. Highly significant material that constitutes the heavy reversal magnetic device 85 to the counter reversing gear device 85Y and eliminates the disadvantages of the existing stationary vanes by alternately rotating the inner moving blades 60c and the outer moving blades 60d. Enables speed turbine drive, injection speed by specific material accelerator 6W + gravity acceleration in vacuum = mach 30 target injection speed, water 3E injection, gravity in vacuum As the maximum acceleration effect, it is injected into the inner rotor blade 60c and the outer rotor blade 60d, and the horizontal axis 1h double reversal drive power generation to maintain the target speed of Mach 30, and the next turbine is driven to effectively use the head When using the vertical type moving blade water gravity turbine 8V power generation and producing the maximum amount of distilled water, such as tropical desert areas, the amount of distilled water produced and Choose a specific material accelerator 6W equipped with the cooling amount of frictional heat vaporized water, water-cooled and easy to exceed the existing power generation maximum vacuum degree such as 30mmHg with air extractor 51, and select 100-200 pairs for drop 828m, etc. In comparison with the final stage of the existing steam turbine power generation, as compared with one turbine 8V Mach 1 power generation amount of 100 sets as 43,000 times volume Mach 1 speed water vapor with a degree of vacuum of 30 mmHg water, / 1000 volumes of water, 43 × 100 = 4300 times the amount of water generated by Mach 1 speed injection, and the amount of power generated by astronomical magnification that requires experimentation. .

  The most important configuration of the fitting assembly 9M of the inner rotor blade 60c and the outer rotor blade 60d shown in FIG. 2 is the entire rotor blade counter-rotating turbine blade 8c, and the lowest friction loss is the most important as super water repellency. Therefore, the water-repellent plating 3a is easy to wear and the water-repellent coating 3b is easy to disassemble when the operation is stopped. The inner shaft device 60A and the outer shaft device 60B in FIG. 60B and the fitting assembly portion 9M are assembled by fixing the outer inlet blade 60e in an annular fitting assembly to form an inlet blade group of the outer moving blade 60d, and the inner shaft device 60A and the fitting assembly portion 9M are annularly arranged in the inner inlet blade 60f. The inlet blade group of the inner rotor blade 60c is constituted by the fitting assembly fixing, and the outer shaft device 60B and the fitting assembly portion 9M are assembled by the outer intermediate blade 60g annular fitting assembly, and the intermediate rotor blade of the outer rotor blade 60d. A group is formed, and the inner shaft device 60A and the fitting assembly portion 9M are assembled inside. The intermediate rotor blade group of the inner rotor blade 60c is constituted by the blade 60h annular fitting assembly, and the outer shaft device 60B and the fitting assembly portion 9M are assembled in the middle of the outer rotor blade 60d by the outer intermediate blade 60g annular fitting assembly. The rotor blade group is configured for the second time, and the inner shaft device 60A and the fitting assembly portion 9M are assembled by fixing the inner outlet blade 60j in an annular fitting assembly to form the outlet blade group of the inner blade 60c, and the outer shaft device 60B. And the assembly assembly portion 9M are assembled by fixing the outer outlet blade 60k in an annular fitting assembly to form the outlet blade group of the outer rotor blade 60d, and more than six sets of six types of cylindrical rotor blade groups 60 for six types of reverse rotation. Fully automatic processing, etc. Manufacturing as one unit, etc. Fully automatic processing, easy assembly, simple structure, no need for boilers and nuclear reactors, etc. make the manufacturing cost of electricity extremely low, and there is no fuel cost, etc. The world's most outstanding, all-blade water gravity turbine 8V for extremely low-cost power generation That.

Heat production of the solar heater 21 in FIG. 3 is a vertical all-blade water gravity turbine 8V fuel cost 0 power generation extremely cheap electric drive, cheap electricity + liquid air cold heat + superheated steam temperature supply equipment 3D The solar heater 21 is provided with a buoyancy on the water surface or a circular railroad on a flat surface, and the solar heater is used as a water device or land device not shown in the figure that maintains and rotates sunlight at a right angle from east to west. 21 is provided with a rotation support part 4f and is equipped with a gear unit 4d and a roller 4e. As the cylindrical rotation part 77G, the vertical rotation of the sunlight is maintained at a right angle in the vertical direction, and the vertical rotation of the east-west direction is controlled by using buoyancy and a circular railway. The device is a device that controls rotation of sunlight in two directions at right angles to maximize the air temperature in the heat absorption tube 4H, collects sunlight with the largest amount of heat in a straight line by the rectangular long lens 2d, and near the focal length. Heat absorption tube 4H The internal air passage 28A air 28a temperature is maximized, the external air passage 28A air 28a temperature is also increased, and the existing lens cross section is linearly extended as a rectangular long lens 2d. A heat insulating material 2c such as a cylinder is surrounded by a cylindrical rotating portion 77G or the like to form a long cylinder such as a cylinder, a long long lens 2d is a joint 80A + fastener 80B, and a sealed upper portion is a 4H external air passage 28A. Intake and compression as 1 to multi-stage heat pump 1G for suction, simple multi-stage compressor 3h or the like as heat pump 1G is set to 800 to 1200 ° C. multiple times, and heat recovery is repeatedly performed by 1 to multi-stage compression heat recovery unit 2C Then, the liquid air 28a cold heat is stored in the liquid oxygen chamber 5K + liquid nitrogen chamber 5L, and the 24-heat of about 200-400 MPa superheated steam is divided and stored in the high-pressure high-temperature steam chamber 5N. Electrical + liquid air cold + using various applications in the superheated steam heat supply facilities 3D, 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 88l, which has a center support on both sides + 9b + 9c and a combined bearing load of 0 in FIG. As a fitting assembly part 9M assembly, fully automated mass production, fully automated processing, easy assembly, aiming at 1/100 parts count, simple multistage compressor 3h connection aiming, vertical full rotor blade water gravity turbine 8V fuel cost 0 In the case of multi-stage compression, simple multi-stage compressor 3h and coupled drive compression are used, and in the case of 1 to multi-stage compression, simple compressor 3s water cooling + water-injection compressed air multi-stage cooling is used as an extremely inexpensive electric drive for power generation. Then, the heat production heated air 28a of the solar heater 21 is recovered as compressed heat, and the high pressure high temperature water heating pipe 5H is heated and the rectifying tower exhaust gas pipe 5h is cooled to prepare for production of liquid oxygen + liquid nitrogen, etc., and the ultra high pressure compressed air 28a The air turbi By generating ultra-high-speed rotation of 3u and ultra-high-speed injection counter-rotating, generating a large rotation output of bearing load coalescence 0 approaching ultra-high-speed rotation, exhaust is supplied to the rectification tower as a significant reduction in motor drive power. Purify to liquid oxygen + liquid nitrogen, etc., supply exhaust gas to rectification tower exhaust pipe 5h, and drive liquid oxygen production machine 88l to mass production of continuous heat + cold, electricity + liquid air cold + hot water to superheat For example, in the heat supply, the injected methane is recovered to the methane hydrate under the seafloor or permafrost, and the methane recovery under the permafrost is made by projecting a transparent enclosure. As the recovery from the upper tip, the enclosure is an eternal 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 compression work rate of air compression Combined with oxygen drive, simple gas engine 88m drive, simple water injection engine 88n drive and simple injection engine 88o drive, airplane drive as various rotational drive such as car drive, ship drive and airplane drive and ultra high speed injection propulsion drive In this case, a liquid oxygen production machine 88l is used which can aim for a one-day trip anywhere on the earth aiming at a space arrival cost of 1 / 500,000.

The simple multi-stage compressor 3h, which has a center support on both sides + 9b + 9c and a bearing load coalescence of 0 in FIG. As part 9M assembly, fully automatic mass production, fully automated processing, easy assembly, 1/100 parts count, vertical full blade water gravity turbine 8V fuel cost 0 power generation extremely cheap electric drive, etc. In the case of compression, it is connected to a liquid oxygen production machine 88l or the like, and the compressed air heat recovery such as air 28a heated by the solar heater 21 is repeated one or more times to produce 50 heated superheated steam such as water heating + compressed air. 28a cold heat production is repeated one or more times to make mass production of super high pressure superheated steam 50 heat + liquid air 28a cold heat, aiming at 1/10 production cost of existing liquid oxygen production cost, etc. During ~ Support bearing load coalescence approaching 0, enabling a large and large ultra-high speed counter rotating compressor and micro ultra high speed counter rotating compressor to make a simple multistage compressor 3h that can handle all conditions, and during assembly the counter rotating machine The outer casing 77C is divided into two parts at the horizontal shaft 1h, and the counter rotating gear device 85Y is first assembled, so that the outer compression blade 8m outlet blade of the outer shaft device 60B60B and the inner compression blade 8k of the inlet blade + inner shaft device 60A60A are assembled. The outlet blade and the inlet blade are assembled, and one to a plurality of inner compression blades 8k intermediate blade intermediate blades + outer compression blades 8m intermediate blade intermediate blades are assembled into the fitting assembly portion 9M, and each inner compression blade 8k inlet blade is assembled. The outlet blade + outer compression blade 8m inlet blade outlet blade assembly is assembled to the fitting assembly 9M, the compressor outer box 77b77b is assembled to the contra-rotating machine outer box 77C, and the compressor assembly box 9b is assembled. In the non-reversing machine outer box 77C Assemble the assembly unit 9M, and configure the simple two-stage compressor 3t one after another, assemble and connect the fitting assembly unit 9M one after another to make a simple multistage compressor 3h of 1 to multiple stages that repeats the simple compressor 3s, and produce the liquid oxygen It is a multi-stage compressor 3h with a horizontal axis 1h, counter-rotating drive, etc.

The simple gas engine 88m with the center support on both sides + 9b + 9c and the bearing load coalescence approaching 0 in FIG. As a fitting assembly part 9M assembly, fully automated mass production, fully automated processing, easy assembly, aiming at 1/100 parts count, simple multistage compressor 3h connection aiming, vertical full rotor blade water gravity turbine 8V fuel cost 0 Power generation from electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D, which is extremely cheap for power generation, receives liquid oxygen 5K + electricity + high temperature water to the theoretical combustion chamber 4Q, etc. driven by low cost electric products, By compressing oxygen 5K, the compression volume work rate is 21/60000 volume compression work rate of air compression, liquid oxygen + liquid fuel + high temperature water is compressed to ultra high pressure such as 24-200 MPa, high pressure high temperature water heating pipe 5H etc. Add Then, in the rocket combustion theoretical combustion chamber 4Q having two types of on-off valves 1Q closed, the oxygen + fuel injection combustion heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X and the inner wall of the theoretical combustion chamber 4Q The fuel + oxygen + hot water to superheated steam 50 is heated to the optimum temperature and the theoretical air-fuel ratio combustion is performed, aiming at 40 times the pressure and 40 times the combustion amount of the existing jet combustion, the existing technology improved theoretical combustion chamber 4Q is 4 times the existing technology As the theoretical air-fuel ratio combustion amount of the fuel, superheated steam 50 with an increased heat quantity of 200 MPa or the like is injected from the production superheated steam rocket nozzle 6A, and the high-pressure high-temperature combustion chamber 5M combustion gas 49 having a fourfold combustion amount is sucked and injected by rocket injection. As a simple gas engine 88m, which is a greatly improved existing gas turbine, the compression work rate is 21/60000 volumetric compression work rate of air compression, liquid oxygen driven theoretical combustion chamber 4 A plurality of coalesced, and simple gas engine 88m used any liquid oxygen 0.

In the case of simple gas engine 88m drive in the liquid oxygen 0 existing technology improved theoretical combustion chamber 4Q, the existing jet engine and the stationary blades of the gas turbine are almost completely abolished, the counter rotating magnetic device 85 to the counter rotating gear device 85Y. Thus, the inner shaft device 60A + outer shaft device 60B approaching both sides center support bearing load combined 0 is double-reversed and the air 28a sucked from the inlet stationary blade 6G is linearly compressed by the inner compression blade 8k + outer compression blade 8m, Double reverse linear ultra-high-speed expansion high-power drive, compression 800-1200 ° C rise process, linear compression simple multi-stage compressor 3h connected, 2 to 5 times the target of relative speed existing gas turbine etc. 2 times compressed air pressure or more Etc. are made to be ultra-high pressure, compressed air is injected into the theoretical combustion chamber 4Q from the stationary blade 6G for compressed air injection in the outer casing 77C of the counter-rotating machine, and fuel is injected and burned from the fuel injection nozzle 6X. By using the hot water heating pipe 5H to produce superheated steam 50 having a heat recovery of 200 MPa or the like and producing the theoretical air / fuel ratio combustion, the combustion air 49 is more than 3/4 heat quantity of the combustion gas 49 as the four times fuel combustion quantity of an existing gas turbine or the like. Superheated steam 50 of 20 times pressure, etc. is rocket-injected, and the inner output blade 8n + outer output blade 8p is double-reversed driven in cooperation with the combustion gas 49, and the same compressed air amount is propelled by 10 times injection of existing jet engines and gas turbines. Aiming for output and 10-fold rotation output, the horizontal shaft 1h or the inner shaft device 60A is extended to rotate and drive generators, automobiles, ships and airplanes. In addition to driving, particularly in the case of power generation, the entire exhaust gas of the simple gas engine 88m is heat recovered by the heat exchange heating air 28a, and the high temperature water 52b of the compressed water jet heat recovery by the inner compression blade 8k + the outer compression blade 8m is high pressure. The air 28a is press-fitted into the hot water heating pipe 5H, and the air 28a is generated by repeating fuel injection combustion in the theoretical combustion chamber 4Q. Further, the power generation amount is increased by the combined high-temperature air 28a heating of the solar heater 21 in FIG. Similarly, the temperature is converted into the temperature of the air 28a and compressed by suction compressed water injection, and similarly, a simple gas engine 88m with an increased power generation amount is obtained.

The simple water injection engine 88n with the center support + 9b + 9c and the bearing load coalescence approaching 0 in FIG. 9M assembly as an assembly, fully automated mass production, fully automated processing, easy assembly, aiming at 1/100 parts count, simple multistage compressor 3h connection aiming, vertical full rotor blade water gravity turbine 8V fuel cost 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 21/60000 volume compression work rate of air compression, liquid oxygen + liquid fuel + high temperature water is compressed to ultra high pressure such as 24-200 MPa, high pressure high temperature water heating pipe 5H etc. Heated with In the rocket combustion theoretical combustion chamber 4Q with two types of on-off valves 1Q closed, oxygen + fuel injection combustion heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, and fuel on the inner wall of the theoretical combustion chamber 4Q + Oxygen + Hot water-Superheated steam 50 is heated to the optimum temperature and the theoretical air-fuel ratio combustion is performed, aiming for 40 times the pressure 40 times the combustion amount of the existing jet combustion, and the superheated steam rocket nozzle 6A + of the theoretical combustion chamber 4Q peripheral air 28a suction flow From the combustion gas injection nozzle 6Y, the superheated steam 50 and the high-pressure high-temperature combustion chamber 5M combustion gas 49 approaching 200 MPa are injected, the air 28a is sucked and injected, and water is sucked and injected. Production of superheated steam 50 aiming at 200MPa with increased heat quantity as the theoretical air-fuel ratio combustion amount of 4 times fuel of technology, rocket outer box 77B superheated steam rocket nozzle A simple water injection that greatly improves the existing jet engine by injecting A, generating rotational output in the high-pressure high-temperature combustion chamber 5M combustion gas 49, sucking and spraying the air 28a in front of the suction flow of the outer air 28a and sucking and spraying water 52a The engine 88n is a simple water injection engine 88n that uses a combination of a plurality of liquid oxygen-driven theoretical combustion chambers 4Q with a compression work rate of 21/60000 volume compression work added to air compression and also uses zero liquid oxygen.

In the case of driving the simple water injection engine 88n in the liquid oxygen 0 existing technology improved theoretical combustion chamber 4Q, the existing jet engine and the stationary vanes of the gas turbine are almost completely abolished, and the counter rotating magnetic device 85 to the counter rotating gear device The inner shaft device 60A + outer shaft device 60B approaching the both-side center support bearing load uniting 0 is double-reversed by 85Y, and the air 28a sucked from the inlet stationary blade 6G is linearly compressed by the inner compression blade 8k + outer compression blade 8m. , Fuel-injection-combustion, counter-rotating linear, ultra-high-speed expansion, large output, simple multi-stage compressor 3h connection, relative speed 2-5 times that of existing gas turbines, etc. Compressed air 28a is injected into the theoretical combustion chamber 4Q from the compressed air injection stationary blade 6G of the reversing machine outer box 77C, fuel is injected and combusted from the fuel injection nozzle 6X, and heat recovery is overheated by the high-pressure high-temperature water heating pipe 5H. By making the gas 50 into the production theoretical air-fuel ratio combustion, the same amount of compressed air as the existing gas turbine or the like, the fuel combustion amount of 4 times or the outer periphery as the rocket injection part, the combustion gas 49 more than 3/4 heat amount, 20 times the pressure etc. The superheated steam 50 is injected into the rocket outer box 77B, and the inner output blade 8n + the outer output blade 8p is driven in reverse by the combustion gas 49 so that the same compressed air amount is 15 times the injection propulsion output of the existing jet engine or gas turbine +5 A simple water-injection engine 88n is provided, which has a double-rotation output target, and has an air suction / injection cylinder only at the rear, with an increase in water resistance and an air suction / injection amount with an increase in water resistance of 0, and so on.

The simple injection engine 88o with the center support on both sides + 9b + 9c and the bearing load coalescence approaching 0 in FIG. 8 and the long high-speed double reversal is easy. As a fitting assembly part 9M assembly, fully automated mass production, fully automated processing, easy assembly, aiming at 1/100 parts count, simple multistage compressor 3h connection aiming, vertical full rotor blade water gravity turbine 8V fuel cost 0 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 Valve 1Q Two types of rocket combustion in the theoretical combustion chamber 4Q of rocket combustion Oxygen + fuel injection heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, fuel + oxygen + hot water to superheated steam on the inner wall of the theoretical combustion chamber 4Q The superheated steam heated to the optimum temperature is heated to a theoretical air-fuel ratio combustion, 40 times the pressure of the existing jet combustion and 40 times the combustion amount, and the superheated steam rocket outlet 6A + combustion gas injection nozzle 6Y approaches superheated steam closer to 200 MPa. 50 or high-pressure high-temperature combustion chamber 5M combustion gas 49 is injected. When the on-off valve 1Q is closed, the high-power rocket combustion space utilization is primed. When the on-off valve 1Q is opened, the front air 28a is sucked and injected, and a plurality of theoretical combustion chambers 4Q are provided. Is a liquid oxygen-driven rocket combustion chamber and jet combustion chamber, and in the existing technology improved jet combustion theoretical combustion chamber 4Q, the theoretical air combustion of four times the fuel of the existing technology As the combustion quantity, the superheated steam 50 is produced with an increased heat quantity and is aimed at 200 MPa, injected from the rocket outer box 77B superheated steam rocket nozzle 6A, rotated output is generated in the high-pressure and high-temperature combustion chamber 5M combustion gas 49, and the front air 28a is sucked and injected. As a simple injection engine 88o that is a greatly improved existing jet engine, a combination of a plurality of liquid oxygen drive theoretical combustion chambers 4Q is used, and a simple injection engine 88o that uses even liquid oxygen is used.

The case of driving the simple injection engine 88o in the liquid oxygen 0 existing technology improved theoretical combustion chamber 4Q will be described. The existing jet engine and the stationary vanes of the gas turbine are substantially abolished, and the counter rotating magnetic device 85 to the counter rotating gear device 85Y. Accordingly, the inner shaft device 60A + outer shaft device 60B approaching both side center support bearing loads 0 is double-reversed and the air 28a sucked from the inlet stationary blade 6G is linearly compressed by the inner compression blade 8k + outer compression blade 8m. Fuel injection combustion counter-rotating linear ultra-high-speed expansion with large output, simple multi-stage compressor 3h connection, 2-5 times the relative speed of the existing gas turbine etc. Compressed air 28a is injected into the jet combustion theoretical combustion chamber 4Q from the compressed air injection stationary blade 6G of the outer box 77C, fuel is injected and combusted from the fuel injection nozzle 6X, and is heated by the high-pressure high-temperature water heating pipe 5H. By making the superheated steam 50 into a production theoretical air-fuel ratio combustion, the same compressed air amount 4 times the fuel combustion amount of the existing gas turbine or the like, and the outer periphery as the rocket injection part 3/4 heat amount or more of the combustion gas 49, 20 times the pressure, etc. The superheated steam 50 is injected into the rocket outer box 77B, and the inner output blade 8n + outer output blade 8p is driven in reverse by the combustion gas 49, and the same compressed air amount is 15 times the injection propulsion output of the existing jet engine or gas turbine. A simple injection engine 88o is used, which aims at +5 times rotation output, and makes the water-injected vessels and airplanes into injection propulsion drive.

The simple gas engine vehicle 7r in FIG. 9 is an improved invention of the existing micro gas turbine vehicle. The simple gas engine 88m can be selected from compressed air drive + zero fuel cost power generation electric product selection drive. Water Gravity Turbine 8V Fuel Cost 0 Power Generation Extremely Low Cost Electric Manufacturing Electricity + Liquid Air Cold Heat + High Temperature Water to Superheated Steam Heat Supply Facility 3D, Theoretical Combustion Driven Theoretical Combustion Chamber 4Q etc. Liquid Oxygen + Electricity + High Temperature By receiving water and 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 + hot water is compressed and heated to an ultrahigh pressure such as 24-200 MPa. In the rocket combustion theoretical combustion chamber 4Q in which the on-off valves 1Q at the multiple inlets are closed, oxygen + fuel injection heated to an optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X is burned, and the theoretical combustion chamber Fuel + oxygen + hot water to superheated steam 50 is heated to the optimum temperature on the Q inner wall, and the target air-fuel ratio combustion is aimed at 40 times pressure 40 times the combustion amount of existing jet combustion, and existing technology improved jet combustion theoretical combustion chamber 4Q As the theoretical air-fuel ratio combustion amount of 4 times fuel and 4 times combustion amount of technology, superheated steam 50 such as 200 MPa with increased heat quantity is injected from the production superheated steam rocket nozzle 6A, and high pressure aiming at 4 times combustion or 40 times combustion by rocket injection As a simple gas engine 88m that sucks and injects the high-temperature combustion chamber 5M combustion gas 49 and greatly improves the existing micro gas turbine, the generator 1 is driven to drive the storage battery drive wheel 4J to the storage battery 1A, and the compressed air drive power plant Liquid oxygen drive theoretical combustion chamber 4Q also used as a power storage station, combined with multiple Q4, even with liquid oxygen 0, ultra high speed rotation output + ultra high pressure injection propulsion output It corresponds to the amount increases, and simple gas engine automobile 7r.

The simple gas engine ship 7s in FIG. 10 is an improved invention of an existing gas turbine ship. The simple gas engine 88m can select a compressed air drive + a fuel cost 0 power generation electric product selection drive. Gravity turbine 8V Fuel cost 0 Power generation Extremely cheap electricity production from electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D, low temperature electric product driven theoretical combustion chamber 4Q etc. liquid oxygen + electricity + hot water And compressing liquid oxygen, the compression volume work rate is 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 24-200 MPa. In the rocket combustion theoretical combustion chamber 4Q in which the on-off valve 1Q at the plurality of inlets is closed, oxygen + fuel injection heated to an optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X is combusted, and the theoretical combustion chamber 4Q inner wall Gas + oxygen + hot water to superheated steam 50 is heated to the optimum temperature and the theoretical air-fuel ratio combustion is performed, aiming for 40 times the pressure 40 times the combustion amount of the existing jet combustion, and the existing technology improved theoretical combustion chamber 4Q is 4 times the fuel of the existing technology As the stoichiometric air-fuel ratio combustion amount with a quadruple combustion amount, superheated steam 50 of 200 MPa or the like with an increased heat amount is injected from the production superheated steam rocket nozzle 6A, and the high pressure and high temperature combustion chamber 5M aiming at the quadruple combustion amount or 40 times combustion by rocket injection. As a simple gas engine ship 7s that injects and injects combustion gas 49 and greatly improves the existing gas turbine ship, the screw 7C drive exhaust is injected to the bottom of the top part of the ship with the rotational output of the simple gas engine 88m. Liquid oxygen conserving drive theoretical combustion chamber 4Q that saves fuel oxygen by drastically reducing glide loss with rocket combustion capable of double output, etc. As the number of combined use any liquid oxygen 0, it corresponds to ultra high speed output + ultra high-pressure jet propulsion output increase in weight, and simple gas engine vessels 7s.

The simple gas engine airplane 7t in FIG. 11 is an improved invention of the existing jet aircraft. The simple gas engine 88m can be selected to be driven by compressed air + zero fuel cost power generation electric product selection drive. Fuel cost 0 power generation Electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D, which is extremely inexpensive electricity production, receives liquid oxygen + electricity + high temperature water to the theoretical combustion chamber 4Q, etc. driven by low cost electric products By compressing liquid 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 an ultrahigh pressure such as 24-200 MPa, and a plurality of inlets In the rocket combustion theoretical combustion chamber 4Q in which the on-off valve 1Q is closed, oxygen + fuel injection heated to an optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X is combusted, and the fuel + on the inner wall of the theoretical combustion chamber 4Q + Elementary high-temperature water to superheated steam 50 are heated to the optimal temperature, and the theoretical air-fuel ratio combustion is performed, aiming at 40 times the pressure 40 times the combustion amount of the existing jet combustion, and the existing technology improved theoretical combustion chamber 4Q is 4 times the fuel 4 times the existing technology As the theoretical air-fuel ratio combustion amount of combustion amount, superheated steam 50 with an increased heat amount of 200 MPa or the like is injected from the production superheated steam rocket nozzle 6A, and high-pressure high-temperature combustion aiming at 4 times combustion amount or 40 times combustion by exhaust injection or rocket injection 5M combustion gas 49 is sucked and injected, and as a simple gas engine airplane 7t that greatly improves the existing jet aircraft, propeller 7A drive exhaust is injected backward with the rotational output of the simple gas engine 88m, aiming at 40 times output rocket combustion +4 for a short time Liquid oxygen-driven theoretical combustion chamber 4Q that combines multiple jets for jet output, etc. As a combination of multiple combustion chambers 4Q, the space arrival cost is 1 / 500,000 and the atmospheric return speed Mach 3 Lower or atmospheric flight even LOX 0 corresponds to ultra high speed output + ultra high-pressure jet propulsion output increase in weight, and large simple gas engine airplane 7t.

The simple water injection engine ship 7u in FIG. 12 is an improved invention of the existing gas turbine ship. The simple injection engine 88e can select the compressed air drive + the fuel cost 0 power generation electrical product selection drive. Gravity turbine 8V Fuel cost 0 Power generation Extremely cheap electricity production from electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D, low temperature electric product driven theoretical combustion chamber 4Q etc. liquid oxygen + electricity + hot water And compressing liquid oxygen, the compression volume work rate is 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 24-200 MPa. In the rocket combustion theoretical combustion chamber 4Q with the multiple inlet / outlet on-off valves 1Q closed, the oxygen + fuel injection combustion heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X is carried out in the theoretical combustion chamber 4Q. The fuel + oxygen + hot water to superheated steam 50 is heated to the optimum temperature, and the theoretical air-fuel ratio combustion is performed, aiming at 40 times the pressure 40 times the combustion amount of the existing jet combustion, the superheated steam rocket nozzle 6A around the theoretical combustion chamber 4Q + combustion gas The superheated steam 50 and the high-pressure high-temperature combustion chamber 5M combustion gas 49 approaching 200 MPa are injected from the injection nozzle 6Y, the high-pressure rocket combustion is performed when the on-off valve 1Q is closed, and the front air 28a is sucked and jetted when the on-off valve 1Q is opened. As combustion, a plurality of theoretical combustion chambers 4Q are used as rocket combustion chambers and jet combustion chambers driven by liquid oxygen, and the existing technology improved jet combustion theoretical combustion chamber 4Q aims at 200MPa with an increased heat quantity as the theoretical air-fuel ratio combustion of four times the fuel of the existing technology. The superheated steam 50 is manufactured and injected from the rocket outer box 77B superheated steam rocket nozzle 6A. As a simple water injection engine 88n is driven by aspirating the air 28a in front and generating water by sucking and injecting the air 28a in front of it, the existing jet engine is greatly improved. It is a simple water injection engine ship 7u corresponding to an increase in weight of the super high speed rotation output + ultra high pressure injection propulsion output aiming at maintaining the flight speed even in the vicinity of liquid oxygen 0.

The simple injection engine plane 7v of FIG. 13 is an improved invention of the existing jet aircraft. The simple injection engine 88e can select a compressed air drive + a fuel cost zero power generation electric product selection drive. Fuel cost 0 power generation Electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D, which is extremely inexpensive electricity production, receives liquid oxygen + electricity + high temperature water to the theoretical combustion chamber 4Q, etc. driven by low cost electric products By compressing liquid 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 an ultrahigh pressure such as 24-200 MPa, and a plurality of inlets In the rocket combustion theoretical combustion chamber 4Q with the outlet on-off valve 1Q closed, oxygen + fuel injection heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X is combusted and burned on the inner wall of the theoretical combustion chamber 4Q + Oxygen + Hot water to superheated steam 50 heated to the optimum temperature Theoretical air-fuel ratio combustion, 40 times the pressure of existing jet combustion, 40 times the combustion amount, superheated steam rocket nozzle 6A around the combustion chamber 4Q + combustion gas injection nozzle From 6Y, superheated steam 50 and high-pressure high-temperature combustion chamber 5M combustion gas 49 approaching 200 MPa are injected, and when the on-off valve 1Q is closed, the high-power rocket combustion space utilization is primed. The theoretical combustion chamber 4Q is made into a liquid oxygen-driven rocket combustion chamber and jet combustion chamber, and the existing technology improved theoretical combustion chamber 4Q is a theoretical air-fuel ratio combustion of four times the fuel of the existing technology. Steam 50 is manufactured, injected from the rocket outer box 77B superheated steam rocket nozzle 6A, and rotational output is generated in the high-pressure high-temperature combustion chamber 5M combustion gas 49, As a simple injection engine 88o drive that sucks and injects the air 28a, and the existing jet engine is greatly improved, the liquid oxygen-driven theoretical combustion chamber 4Q is combined with a plurality of 4Q to reach the space arrival cost 1/5 million target of the existing technology, the atmospheric return speed Large, simple injection engine airplane with Mach 3 or lower and high-speed flight with zero liquid oxygen in the atmosphere, and extended propeller 7A by extending the inner shaft device 60A depending on the application. 7v.

The rotary wing airplane 7w in FIG. 14 is an improved invention of the existing rotary wing aircraft. The simple gas engine 88m can be selected to be driven by compressed air + zero fuel cost electricity generation electric product selection drive. 8V fuel cost 0 power generation Extremely inexpensive electricity production Electricity + liquid air cold heat + high temperature water-superheated steam temperature supply facility 3D receives liquid oxygen + electricity + high temperature water to the theoretical combustion chamber 4Q, etc. driven by low cost electric products Then, 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 an ultrahigh pressure such as 24-200 MPa. In the rocket combustion theoretical combustion chamber 4Q with the inlet on-off valve 1Q closed, oxygen + fuel injection heated to an optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, and fuel + oxygen + high on the inner wall of the theoretical combustion chamber 4Q Water to superheated steam 50 is heated to the optimum temperature and the theoretical air-fuel ratio combustion is performed, aiming at 40 times the pressure and 40 times the combustion amount of the existing jet combustion, and in the jet combustion theoretical combustion chamber 4Q, the theoretical air-fuel ratio combustion of the existing technology 4 times fuel combustion As an example, the superheated steam 50 of 200 MPa or the like is manufactured with a triple heat quantity, injected from the superheated steam rocket nozzle 6A, and injected into the high-pressure and high-temperature combustion chamber 5M aiming at a 4-fold combustion amount or 40-fold combustion by exhaust injection or rocket injection, As a rotary wing airplane 7w, which is a greatly improved existing rotary wing aircraft, the rotary output of the simple gas engine 88m is used to drive the rotary blade 7B, and the rotational force + jet propulsion is driven by the exhaust jet. Rocket combustion + jet combustion + rotation output + injection propulsion output capable of output etc. Compressed air + liquid oxygen driven theoretical combustion chamber 4Q Combined with multiple combustion chambers 4Q 1/50 ten thousand aim and the operator, to fly even atmospheric feedback speed Mach 3 or less and liquid oxygen 0, corresponds to ultra high speed output + ultra high-pressure jet propulsion output weight increase, the large rotating blades airplane 7w.

A rotary wing jet airplane 7x in FIG. 15 is an improved invention of an existing rotary wing aircraft. The simple injection engine 88e can select a compressed air drive + a fuel cost 0 generation electric product selection drive. Turbine 8V fuel cost 0 power generation Electricity + liquid air cold heat + high temperature water to superheated steam temperature heat supply equipment 3D of liquid electricity + electricity + high temperature water is supplied to the theoretical combustion chamber 4Q etc. driven by low cost electric products By receiving and 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 an ultrahigh pressure such as 24-200 MPa, In the rocket combustion theoretical combustion chamber 4Q in which the on-off valve 1Q at the plurality of inlets and outlets is closed, the oxygen + fuel injection combustion heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X, and fuel + on the inner wall of the theoretical combustion chamber 4Q + Elementary high-temperature water to superheated steam 50 are heated to the optimum temperature, theoretical air-fuel ratio combustion is performed, the target is 40 times the pressure of the existing jet combustion, and the combustion amount is 40 times the combustion amount. Therefore, the superheated steam 50 and the high-pressure high-temperature combustion chamber 5M combustion gas 49 approaching 200 MPa are injected, and when the on-off valve 1Q is closed, the high-power rocket combustion space is primed. Injecting by fuel ratio combustion or the like, the plurality of theoretical combustion chambers 4Q are liquid oxygen driven rocket combustion chambers and jet combustion chambers, and the compressed air combustion jet combustion theoretical combustion chamber 4Q is a theoretical air fuel ratio combustion of four times the fuel of the existing technology, The superheated steam 50 is produced with an increase of 3 times the amount of heat and is aimed at 200 MPa. The high pressure and high temperature combustion chamber 5M combustion gas 49 is injected to generate rotational output. The superheated steam 50 is injected from the hot steam rocket nozzle 6A, the air 28a in front is sucked and injected, and as a simple injection engine 88o driven close to the existing jet engine, the liquid oxygen drive theoretical combustion chamber 4Q is combined with a plurality of space arrival costs The target of 1 / 500,000 of the existing technology is that the atmospheric return speed is Mach 3 or less, and the atmosphere is flying with liquid oxygen 0, or the inner shaft device 60A extension rotor blade 7B is driven, ultra high speed rotation output + ultra high pressure injection propulsion output weight A large rotary wing jet airplane 7x corresponding to the increase is assumed.

The oversized Osprey 7y in FIG. 16 is an improved invention simple injection engine 88o of an existing rotor blade and propeller aircraft, which can select a compressed air drive + a fuel cost 0 power generation electrical product selection drive. Water Gravity Turbine 8V Fuel Cost 0 Power Generation Extremely Low Cost Electric Manufacturing Electricity + Liquid Air Cold Heat + High Temperature Water to Superheated Steam Heat Supply Facility 3D, Theoretical Combustion Driven Theoretical Combustion Chamber 4Q etc. Liquid Oxygen + Electricity + High Temperature By receiving water and 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 + hot water is compressed and heated to an ultrahigh pressure such as 24-200 MPa. Then, the oxygen + fuel injection combustion heated to the optimum temperature from the oxygen injection nozzle 6L + fuel injection nozzle 6X in the rocket combustion theoretical combustion chamber 4Q in which the opening / closing valve 1Q at the plurality of inlets and outlets is closed, and the theoretical combustion chamber 4Q Fuel + oxygen + high-temperature water to superheated steam 50 heated to the optimum temperature on the wall, aiming at the theoretical air-fuel ratio combustion, aiming for 40 times the pressure and 40 times the combustion amount of existing jet combustion, superheated steam rocket nozzle 6A + combustion around the theoretical combustion chamber 4Q From the gas injection nozzle 6Y, the superheated steam 50 or the high-pressure high-temperature combustion chamber 5M combustion gas 49 approaching 200 MPa is injected. Compressed air 28a combustion is injected by theoretical air-fuel ratio combustion or the like, and a plurality of theoretical combustion chambers 4Q are used as liquid oxygen-driven rocket combustion chambers and jet combustion chambers. As the theoretical air-fuel ratio combustion, the superheated steam 50 is produced with a target of 200 MPa with an increased heat quantity of 3 times, and the rotation output is generated by the high-pressure high-temperature combustion chamber 5M combustion gas 49 injection. Superheated steam 50 is injected from the superheated steam rocket nozzle 6A of the suction flow of the peripheral air 28a, the front air 28a or vacuum is sucked and injected, and the liquid jet driving is performed as a simple injection engine 88o driving the existing jet engine with super-high output. Combining multiple theoretical combustion chambers 4Q Space arrival cost 1 / 500,000 moon landing return target of existing technology, air return speed Mach 3 or less, flight in the atmosphere with liquid oxygen 0, inner shaft device 60A extension rotor and propeller A plurality of 7A drive vertical ascending horizontal flights, and an ultra-large extra-large Osprey 7y corresponding to an increase in the weight of the ultra-high-speed rotation output + ultra-high-pressure injection propulsion output.

The large Osprey 7z shown in FIG. 17 is an improved invention of an existing rotor blade / propeller aircraft. The simple gas engine 88m can be selected from compressed air drive + zero fuel cost electric product selection drive. Water Gravity Turbine 8V Fuel Cost 0 Power Generation Extremely Low Cost Electric Manufacturing Electricity + Liquid Air Cold Heat + High Temperature Water to Superheated Steam Heat Supply Facility 3D, Theoretical Combustion Driven Theoretical Combustion Chamber 4Q etc. Liquid Oxygen + Electricity + High Temperature By receiving water and 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 + hot water is compressed and heated to an ultrahigh pressure such as 24-200 MPa. The rocket combustion theoretical combustion chamber 4Q, in which the on-off valve 1Q at the plurality of inlets is closed, is heated by the oxygen + nozzle 6L + fuel injection nozzle 6X and heated to the optimum temperature by the oxygen + fuel injection combustion, and the inner wall of the theoretical combustion chamber 4Q Fuel + oxygen + hot water to superheated steam 50 is heated to the optimum temperature, and the theoretical air-fuel ratio combustion is performed, aiming for 40 times the pressure and 40 times the combustion amount of the existing jet combustion, and the jet combustion theoretical combustion chamber 4Q is four times the fuel combustion of the existing technology As the stoichiometric air-fuel ratio combustion, superheated steam 50 of 200 MPa or the like is manufactured with a triple heat quantity, injected from superheated steam rocket nozzle 6A, and targeted for quadruple combustion quantity or 40 times pressure injection by high pressure and high temperature by exhaust injection or rocket injection As a large Osprey 7z with 5M injection in the combustion chamber and a greatly improved existing rotor blade / propeller aircraft, the rotor / propeller 7A multi-drive vertical ascending horizontal flight with the rotational output of a simple gas engine 88m, rotating with exhaust injection + rocket injection Rocket injection + jet combustion capable of 40 times pressure injection by driving output + injection propulsion output and driving inner shaft device 60A extension rotor blade and propeller 7A Compressed air + liquid oxygen drive theoretical combustion chamber 4Q combined with rotation output + injection propulsion output As a combination of multiple combustion chambers 4Q, the space arrival cost is aimed at 1 / 500,000 months landing return, atmospheric return speed Mach 3 or less and in the atmosphere Flying with liquid oxygen 0, driving the inner shaft device 60A extended rotor blades and propellers 7A, driving vertically ascending and horizontally flying to form a large-sized large osprey 7z corresponding to the increase in ultra-high-speed rotation output + ultra-high-pressure jet propulsion output weight .

Compared with the existing pumped-storage power generation, the vertical-type full-blade water gravity turbine 8V power generation aiming at a resource cost of 0 fuel costs of 0 power generation less than 1/2 of the nuclear power generation will be explained. Gravity acceleration in vacuum is added to water injection speed Mach 3 or higher, and work rate is proportional to speed + proportional to height, so water injection speed Mach 3 or higher + gravity acceleration in vacuum = Mach 30 and so on 100 times speed 1/100 mass vertical water drive + all-blade horizontal axis 1h double reversal drive, maximum power of 9.8m / sec in gravity in vacuum, 200 sets at the world's highest building height of 828m There is a possibility of extremely low-priced power generation with vertical-type full-blade water gravity turbine 8V power generation that has vertical power generation, one power generation, and the same amount of water generation 200 times that of existing pumped power generation.

In the process of comparing the vertical-type full-blade water gravity turbine 8V power generation with the existing thermal power nuclear steam turbine power generation, aiming to reduce the resource cost 0 fuel cost 0 power generation cost to less than 1/2 of the nuclear power generation, the atmospheric pressure 100 according to Boyle's law Assuming that the steam velocity of 1700 times the water at 760 ° C. and water is 43000 times the volume of water at the exhaust temperature of 29 ° C. and the vacuum pressure of 30 mm Hg, and assuming that the steam velocity of the existing steam turbine final blade group is the sonic velocity, the inlet high pressure blade group Since the steam velocity is 1 / 100th the speed of sound or less, the work rate is the lowest, so the comparison will be made with the last blade group having the highest work rate. When the water drive volume is 1/43000 volume 29 ° C water drive of the steam 29 ° C volume, the same power generation amount is obtained by driving the 6-stage front and rear blade groups that are double-reversed for 1 h for all the rotor blades. If it is calculated by elementary school science, such as 200 times the amount of power generated by 200 sets of 200 units connected, there is a possibility that extremely low-cost power generation will become an astronomical large amount of power generation.

Vertically moving blade water gravity turbine 8V power generation Extremely inexpensive power generation, as an electric product prime, electricity + liquid air cold heat + superheated steam heat supply equipment 3D receives superheated steam, methane hydrate under the seabed or permafrost For food companies, methane recovery, permafrost conversion to pasture grazing conversion, superheated steam injection in oil sands, oil shale, and aging oil collection areas, vaporization recovery liquefaction preservation, etc. There is a possibility of receiving cheap superheated steam for mass production of cheap food products, etc., and using it for agricultural, industrial, industrial or mining industries to make full use of heat.

Vertical type moving blade water gravity turbine 8V power generation Extremely inexpensive power generation, as an electric product prime, it receives liquid oxygen 5K from electricity + liquid air cold heat + superheated steam temperature supply equipment 3D, and combines liquid oxygen drive and normal drive It is set as a driving car, a ship, an airplane, etc., and liquid oxygen 5K is liquid compressed to 21/60000 volumetric compression work rate of air volume compression work rate, and simple gas engine 88m, simple water injection engine 88n, and simple injection engine 88o. There is a possibility that CO2 emissions and fuel costs will be close to 1/10 in automobiles, ships may be close to 10 times the speed with the same fuel cost, and airplanes will have a space arrival cost of 1 / 500,000, etc. There is a possibility that it will be a major revolution in the use of cold energy, such as making a day trip anywhere on earth 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, divided into liquid air cold heat + superheated steam heat, and gravitational energy is increased storage spray accelerated by acceleration of gravity in vacuum Various energy coalescence engine coalescence means used for conversion to generated power) 0: Various energy storage cycle coalescence engine and coalescence method (various thermal energy is heated by solar heat or geothermal heat, etc., compressed air is recovered by a heat pump as air temperature, liquid air cooling + Divided and stored in superheated steam temperature ・ Used with a heat retaining device when using liquid metal below 500 ℃ ・ Shock energy is set to turbine blades and small-diameter metal balls, and silicon resin coating or fluororesin coating is provided to extend the working time Use / gravity energy is ascended by the ascending device, stored and sprayed, accelerated by gravitational acceleration in vacuum, and converted into energy using generated power Combined engine and various energy combining 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) 1K: Liquid fuel control valve, 1L: Fuel heating pipe, 1Q: On-off valve, 1Y: Multistage combustion chamber, 1b: Fuel (liquid fuel + 1b: Fuel pipe (provided so that the fuel injection temperature becomes the optimum temperature) 1c: Liquid fuel, 1d: Mercury, 1g: Gravity acceleration unit, 1h: Horizontal shaft (with outer shaft device) 2) Solar light heater (collects sunlight in a straight line with a long lens and heats the high-temperature portion forming intake air) 2a: Speeds up the natural phenomenon (change is almost 0 in the air) 2a: Acceleration of natural phenomena (by generating cold water 28a and natural water in power generation, the seawater is accelerated by power generation) Supplied with nutrients such as nitrogen, oxygen and CO2 to increase the supply of nutrients such as fish and kombu by increasing the number of microorganisms 2a: Speeding up natural phenomena (on ships, supplying nutrients such as nitrogen, oxygen and CO2 into the sea to digest microorganisms Aiming for tens of thousands of capacity in forests, phytoplankton, seaweed, etc. are propagated to increase food for humans such as fish and kombu through food chains, etc. 2b: Low water resistance (air, combustion gas, superheated steam, etc. are injected at high speed on the bottom of the ship) Minimize water resistance ) 2c: heat insulating material, 2d: long lens (convex lens cross-section extended into a straight line, a plurality of uses aiming at the shortest focal length lens width) 2e: water surface, 2g: specific material acceleration direction, 2A: heat-resistant material, 2B : Heat absorbing material, 2C: 1 to multi-stage compression heat recovery device (heat energy is air temperature, heat recovery is performed multiple times with a heat pump multiple times with a compression heat exchanger, and the remainder is divided and stored as warm 50 + liquid cold 28a) 2E : Specific material (including alloy, platinum sphere, gold sphere, tungsten alloy powder sintered sphere, silver sphere, copper sphere, tin sphere, lead sphere, zinc sphere, aluminum sphere, indium, cadmium, gallium, thallium, bismuth, etc. Substance) 2E: Specific critical substance (In the manufacturing method, impact energy decreases as the diameter decreases. For example, molten steel is injected into the air to produce ultra-small diameter steel balls by high-speed collision pulverization air cooling water cooling) 2E: Specific critical substance (Shi Covered platinum alloy balls, coated gold alloy balls, coated tungsten alloy powder sintered balls, coated silver alloy balls, coated bismuth alloy balls, coated copper alloy balls, coated tin alloy balls, coated lead alloy balls -Coated zinc alloy sphere-Coated aluminum alloy sphere 2F: Specific critical substance elevating device (gravity energy is increased and stored) 2H: Cold seawater mixer, 2X: Air heat exchanger 2Y: Compressed air heat exchanger (liquid air cold heat + 2Z: Specific material heat exchanger (used for temperature control of liquid metal below 500 degrees) 3a: Water repellent plating, 3f: Simple multistage compressor, 3h: Simple multistage compressor, 3s: Simple compressor 3t: simple multi-stage compressor, 3u: air turbine, 3A: water repellent coating, 3B: water pressure reciprocating engine, 3D: electricity + liquid air cold heat + superheated steam heat supply equipment (cooling power + heat with gravity power generation Manufacture and supply liquid oxygen and liquid nitrogen Drive automobiles, ships and airplanes, and supply with superheated steam Collect methane hydrate, recover methane, etc. Make electricity, cold heat, and heat use prime) 3E: Specific critical substances (mercury and water) 3E: Specific critical substance (low melting point alloy liquid and stable high temperature liquid alloy) 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 (the best engine in theory that the volume of gas is inversely proportional to pressure + oxygen 3Q: Theoretical expansion engine (best engine by Boyle's law + aiming at the maximum acceleration drive in vacuum) 3R: Theoretical gas turbine (theoretical best that gas volume is inversely proportional to pressure) 3S: Theoretical steam turbine (theoretical best steam turbine whose gas volume is inversely proportional to pressure) 3T: Theoretical gas compressor (Theoretical best gas compressor whose gas volume is 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 (engine whose gas volume is inversely proportional to pressure) 3Z: Oxygen pressure Gear engine, 3a: Water repellent plating, 3b: Water repellent coating, 4F: Combustion gas reciprocating engine, 4H: Heat absorption tube (long-lens 2d gathers sunlight into heat absorption tube in a straight line to maximize the air temperature in the tube 4J: Storage battery drive wheel, 4K: Theoretical expansion engine vehicle, 4Q: Theoretical combustion chamber (theoretical air-fuel ratio combustion in the production of superheated steam, 4 times the existing combustion amount, etc.) 4W: Theoretical compression chamber, 4Y: Theoretical combustion chamber (combustion chamber at high temperature in water vapor and water for pyrolysis electrolysis combustion target compound 0 target combustion chamber) 4Z: Combustion gas gear Engine, 4X: Turbine blade cross section (cross-sectional area is enlarged surface area increase) 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 and high-temperature combustion gas control valve, 5b: compression intake air passage, 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 pipe, 5G: Steam heating pipe, 5G: High pressure high temperature water heating pipe, 5H: High pressure high temperature water heating pipe, 5H: High pressure high temperature superheated steam pipe, 5K : Liquid oxygen, K: 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, 6C: Combustion gas water vapor nozzle, 6E: specific material injection nozzle, 6F: water injection nozzle, 6G: stationary blade, 6H: drain pipe, 6L: oxygen injection nozzle, 6W: specific material accelerator (liquid ratio material 3E pressure and 6X: Fuel injection nozzle, 6X: After burner (combustion of the fuel injection cold heat 28a combustion flow 6Y into the suction air flow and 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 wing airplane, 7j: rotary wing injection airplane, 7k: simple gas engine vehicle, 7l: simple gas engine ship, 7m: simple gas engine airplane, 7n: simple water injection engine ship, 7o: Simple injection engine airplane, 7p: Rotary wing airplane, 7q: Rotary wing injection airplane, 7r: Simple gas engine automobile, 7s: Simple gas engine ship, 7 t: simple gas engine airplane, 7u: simple water injection engine ship, 7v: simple injection engine airplane, 7w: rotary wing airplane, 7x: rotary wing injection airplane, 7y: extra large Osprey, 7z: large Osprey, 8c: turbine wing ( Turbine blades aiming at fully automatic manufacturing and processing, in which the inner and outer rotor blade groups are fitted and fixed to the cylindrical portions of the inner and outer shaft devices, respectively. 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, 8H : Vertical-type all-blade turbine (Small and large output stage, ring-shaped, same-diameter, same-length, same-length screw assembly 9) 8H: Vertical type moving blade Bin (selection of cemented carbide alloy, silicon resin coating or fluororesin coated turbine blade) 8H: Vertical all-blade hydrogravity turbine (existing steam turbine is stationary blade and weir output is close to 0, all blades are essential) Since the work rate is as small as 1 / 360,000 of platinum sphere, it is essential to use gravity of specific material, and air such as solar heated air is recovered with compression heat with 1 to multiple heat pump + compression heat recovery device, 8H: Vertical-type all-blade water gravity turbine (Used when head usage is limited when using thermal drive + cold drive, so that head usage is unlimited) 8K: Vertical type Total blade hydrogravity turbine (water gravity turbine in which the rotation direction of the outer shaft device and the inner shaft device is alternated by the horizontal axis 1h) 8L: Vertical type moving blade ratio critical material gravity turbine (the outer shaft device and the inner side by the horizontal shaft 1h) Rotation direction of the shaft device alternately 8M: Vertical-type full-blade water gravity turbine (6 types of reverse-rotation 6-type cylindrical turbine blade group fitting assembly + magnetically utilized bearing load approach 0) 8N: Vertical-type full-motion Blade specific gravity material gravity turbine (six types of cylindrical turbine blade groups for reverse rotation + assembly using magnetic bearing load 0 approach) 8R: horizontal type full blade hydrogravity turbine (cylindrical turbine blade group series counter synchronization 8S: Horizontal type full blade ratio material gravity turbine (cylindrical turbine blade group series opposed synchronous rotation + magnetic type bearing load close to 0) 8P: Vertical type full blade dynamic gravity Turbine (six types of cylindrical turbine blade group fitting assembly for 6 types of reverse rotation + magnetic bearing load approach 0 + super high speed peripheral speed) 8Q: vertical all blade ratio critical material gravity turbine (6 types of reverse rotation) 6 types of cylindrical turbine Blade group mating assembly + Magnetic bearing load 0 approach + Super 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 peripheral speed) 8U: Horizontal type full blade ratio material gravity turbine (cylindrical turbine blade group series opposed synchronous rotation + magnetic utilization bearing load 0 approach + super high speed peripheral speed) 9: Wear resistant annular assembly (specific ratio including 8c) 9b: Upper attracting and lower repulsive magnet, 9A: Cylindrical annular assembly (wear-resistant cylindrical annular assembly, 6 types of moving blade group, 6 types for reverse rotation) 9A: Cylindrical ring assembly (outer inlet blade 60e + outer intermediate blade 60g + outer outlet blade 60k is fitted to form the outer moving blade 60d) The inner wing 60 + Inner intermediate blade 60h + cylindrical portion constituting inner rotor blade 60c by fitting inner outlet blade 60j) 9B: Repulsive permanent magnet, 9C: Suction permanent magnet, 9D: Compressed air portion, 9E: Vacuum portion, 9M: Mating assembly Part, 9Q: vertical parallel plate (vertical parallel plate that guides the blast air to the storage stern) 10: hull, 10A: cabin, 10b: cockpit, 10c: control room, 10d: cabin, 10e: cargo compartment, 11D: Cooling chamber dedicated to gas, 16B: vertical axis, 21: solar heater (mainly used with the intake air passage also provided in the heat absorption pipe 4H) 24: combustion gas control valve, 24A: compressed air control valve, 24B: Liquid oxygen control valve, 24C: liquid nitrogen control valve, 24D: oxygen control valve, 24E: nitrogen control valve, 25: superheated steam control valve, 25b: fuel control valve, 25c: fuel pipe, 28a: air, 28a: cold ( Air 28a Compressed with a pump and heated with 50 superheated steam of compressed air calorie + compressed air 28a cold containing liquid oxygen and liquid nitrogen 28b: compressed air calorie, 28A: intake air channel, 28B: air channel inlet, 38: rotation Guide, 38a: Flight trunk, 38b: Flight wing, 38c: Flight wing, 38d: Vertical wing, 38e: Front wing center, 38g: Water wing, 38h: Levitation boat, 38B: Air suction jet ship (80S80T80Y80Z equipped) 38C: Water suction jet ship (equipped with 80U80X) 38H: Theoretical 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 gravity flying ship, 39H: Oxygen Combined 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 jet airplane, 39P: Oxygen coalescence propeller airplane, 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: Warm heat (compressed air 28a is compressed with a heat pump and divided into 50 warm heat of compressed air heat + compressed air 28a cold storage) 50A: Steam, 50a: Superheated steam injection pipe, 51: Air extraction 51: Confluence extractor (extractor for joining) 51A: Air extraction chamber, 5 2a: high temperature water 52a: deep ocean water, 52b: high temperature water, 52d: heat (change from 50) 52e: cold (change from 28a) 55B: transmission, 60: cylindrical blade group, 60A: inner shaft device (turbine) Blade equipped device) 60B: Outer shaft device (turbine blade equipped device) 60C: Cylindrical inner moving blade group (Wear resistant cylindrical annular assembly fixed moving blade group including fully automatic processing easy assembly) 60D: Cylindrical outer moving blade 60E: Inlet fixed outer blade (inlet blade for annular assembly fixing outer rotor blade group) 60F: Inlet fixed inner blade (inner side) 60G: Outer annular blade (intermediate blade for annular assembly of outer rotor blade group) 60H: Inner annular blade (intermediate blade for annular assembly of inner rotor blade group) 60J: Outlet fixed outside Wings (outer buckets 60K: outlet fixed inner wing (exit blade for annular assembly fixing inner blade group) 60c: inner blade, 60d: outer blade, 60e: outer inlet blade, 60f: inner inlet blade, 60g: Outer intermediate blade, 60h: Inner intermediate blade, 60j: Inner outlet blade, 60k: Outer outlet blade, 76: Gear device (including magnetic friction power transmission device) 77B: Rocket outer box, 77C: Outside of counter-rotating machine Box, 77F: Injection unit outer box, 77G: Cylindrical rotating unit, 77a: Turbine outer box, 77b: Compressor outer box, 80: Bearing (including magnetic bearing + air bearing) 80a: Thrust bearing (including magnetic bearing + air bearing) 80A: Joint, 80B: Fastening tool, 80Y: Liquid air suction water jet (high pressure high temperature combustion chamber 5M receiving high pressure high temperature steam chamber 5N, fuel injection combustion in 5M multiple times, 5N inner circumference and inner circumference outer circumference Heat several times 80Z: Liquid air suction water jet (receives high pressure high temperature combustion chamber 5M, high pressure high temperature steam chamber 5N, and injects and combusts multiple times to 5M, 5N inner circumference And heated several times from the inner and outer peripheries, injected into the air suction flow at several locations, injected into the fuel, burned and injected into the air, and sucked and injected into the water) 84: Counter-rotating magnetic friction device (fixed part) 84Y: Counter-rotating gear device (device that counter-rotates with existing technology) 85: Counter-rotating magnetic device (magnet gear height using magnet) 85Y: Counter-rotating gear device (reciprocal reverse rotation using the existing horizontal shaft 1h gear) 88a: simple gas engine, 88b: simple injection engine, 88c: Simple water injection engine, 88 : Simple gas engine, 88f: simple injection engine, 88e: simple water injection engine, 88g: liquid oxygen production machine 88l: liquid oxygen production machine, 88i: simple gas engine, 88j: simple water injection engine, 88k: simple injection engine, 88l: liquid oxygen production machine, 88m: simple gas engine, 88n: simple water injection engine, 88o: simple injection engine, 88A: oxygen combined air injection unit (rocket injection + jet combustion + steam injection etc. combined injection) 88B: oxygen Combined air injection unit (ultra-high pressure rocket combustion + jet combustion + superheated steam injection suction) 88C: theoretical air injection unit, 88M: theoretical water injection unit, 88K: oxygen combined water injection unit (rocket combustion + jet combustion + water vapor injection, etc. 88L: Oxygen combined water injection unit (super high pressure rocket combustion + jet combustion + superheated steam injection suction) 95a: combustion gas reservoir, 9 b: compressed air reservoir, 95c: superheated steam reservoir, 103: cold heat recovery unit,

Claims (457)

  6 types of blades for reverse rotation with 6 types of rotating blades assembled as fitting assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 1-20 pairs of hydrodynamic turbines (8V) Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Sixteen types of blades for reverse rotation with 6 types of rotating blades assembled as fitting assembly (9M) assembly + magnetic bearing load approach 0 + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of 6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetically utilized bearing load 0 approach + super high speed circumferential water speed hydrodynamic turbine (8V) 41-60 sets Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Sixteen types of reverse-rotating blade hydrogravity turbines (8V) 61 to 80 sets with 6 types of blades for reverse rotation assembled as fitting assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of 6-type rotating blades for reverse rotation assembly (9M) assembly + magnetically utilized bearing load 0 approach + super-high speed circumferential water speed hydrodynamic turbine (8V) 81-100 sets Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation with 6 types of rotating blades assembled as fitting assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed hydrostatic turbine (8V) 101-120 pairs Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation with 6 types of moving blades assembled as fitting assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential gravity speed hydrodynamic turbine (8V) 121-140 sets Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation with 6 types of moving blades assembled as fitting assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed hydrostatic turbine (8V) 141-160 pairs Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation with 6 types of rotating blades assembled as fitting assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed hydrostatic turbine (8V) 161-180 pairs Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation with 6 types of moving blades assembled as fitting assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed hydrodynamic turbine (8V) 181 to 200 sets Various energy storage cycle coalescence engines and coalescence methods for coalescence of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engine and coalescence method for coalescence of moving blade water gravity turbine (8V) 1-20 sets generator electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engine and coalescence method for coalescence of moving blade water gravity turbine (8V) 21 to 40 generator electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engine and coalescence method for coalescence of moving blade water gravity turbine (8V) 41-60 sets of power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engine and coalescence method for coalescence of moving blade water gravity turbine (8V) 61-80 sets power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engine and coalescence method for coalescence of moving blade water gravity turbine (8V) 81-100 power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engines and coalescence methods for coalescence of moving blade water gravity turbine (8V) 101-120 generator electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engine and coalescence method for coalescence of moving blade water gravity turbine (8V) 121-140 generator electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engines and coalescence methods for coalescence of moving blade water gravity turbine (8V) 141-160 generator electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engine and coalescence method for coalescence of moving blade water gravity turbine (8V) 161-180 power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   Six types of blades for reverse rotation are assembled by fitting (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1-30 jet driven by super high speed circumferential speed. Various energy storage cycle coalescence engine and coalescence method for coalescence of moving blade water gravity turbine (8V) 181 to 200 power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Various energy storage cycle coalescence engines and coalescence methods for merging of blade water gravity turbine (8V) 1-20 power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Various energy storage cycle coalescence engine and coalescence method for merging of blade water gravity turbine (8V) 21 to 40 power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Various energy storage cycle coalescence engines and coalescence methods for coalescence of blade water gravity turbine (8V) 41 to 60 generator electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Blade energy gravity turbine (8V) 61-80 sets of power generation electric product drive + both center support bearing load coalescence 0 approach counter rotating production compressed air (28a) drive coalescence various energy conservation cycle coalescence engine and coalescence method.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Various energy storage cycle coalescence engines and coalescence methods for wing water gravity turbine (8V) 81 to 100 power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Blade energy gravity turbine (8V) 101-120 power generation electric product drive + both center support bearing load coalescence 0 approach counter rotating production compressed air (28a) drive coalescence various energy conservation cycle coalescence engine and coalescence method.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Blade energy gravity turbine (8V) 121-140 generator power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive coalescence various energy conservation cycle coalescence engine and coalescence method.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Various energy storage cycle coalescence engines and coalescence methods for merging of blade water gravity turbine (8V) 141-160 power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Blade energy gravity turbine (8V) 161-180 sets of power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive coalescence various energy conservation cycle coalescence engine and coalescence method.   6 types of blades for reverse rotation: Fitting type assembly (9M) assembly + Magnetic bearing load 0 approach + Super high speed circumferential speed Water type (3E) Mine 30 type injection driven drive Various energy storage cycle coalescence engines and coalescence methods for wing-water gravity turbine (8V) 181 to 200 sets of power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driven vertical type full-blade water gravity turbine (8V) 1 to 20 sets of power generation electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive various energy conservation cycles Merger engine and merger method.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driven vertical type full-blade water gravity turbine (8V) 21 to 40 sets of power generation electric product drive + both center support bearing load coalescence 0 approach counter rotating production compressed air (28a) drive various energy conservation cycles Merger engine and merger method.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driven vertical type full-blade water gravity turbine (8V) 41-60 sets of power generation electric product drive + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) drive various energy conservation cycles Merger engine and merger method.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driven vertical all blade hydrogravity turbine (8V) 61-80 sets of power generation electrical product drive + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) drive various energy conservation cycles Merger engine and merger method.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driven vertical all blade hydrogravity turbine (8V) 81-100 sets of power generation electric product drive + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) drive various energy conservation cycle Merger engine and merger method.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driven vertical all blade hydrogravity turbine (8V) 101-120 power generation electric product drive + both center support bearing load coalescence 0 approach counter rotating production compressed air (28a) drive various energy conservation cycle Merger engine and merger method.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driven vertical all blade hydrogravity turbine (8V) 121-140 sets Power generation electric product drive + Both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Driven various energy conservation cycles Merger engine and merger method.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driving vertical all blade hydrogravity turbine (8V) 141 to 160 sets of power generation electric product drive + both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) driving various energy conservation cycles Merger engine and merger method.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driven vertical all blade hydrogravity turbine (8V) 161-180 pairs of power generation electric product drive + double-sided center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) drive various energy conservation cycles Merger engine and merger method.   6 types of rotating blade groups for reverse rotation are fitted with assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed (1h) with counter-rotating drive and generator (1 ) Driven vertical all blade hydrogravity turbine (8V) 181 to 200 sets of power generation electric product drive + both sides center support bearing load coalescence 0 approach counter rotating production compressed air (28a) drive various energy conservation cycle Merger engine and merger method.   Horizontal axis (6E) driven by water (3E) Mach 1 to 30 with 6 types of moving blade groups for reverse rotation assembly (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed ( 1h) Double reversal drive or generator (1) driven full-blade hydrogravity turbine (8V) 1-20 sets generator electric product drive + both sides center support bearing load coalescence 0 approach counter reversal production compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   Horizontal axis (6E) driven by water (3E) Mach 1 to 30 with 6 types of moving blade groups for reverse rotation assembly (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed ( 1h) Counter-rotating drive and generator (1) driven vertical rotor blades water gravity turbine (8V) 21-40 sets generator electric product drive + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   Horizontal axis (6E) driven by water (3E) Mach 1 to 30 with 6 types of moving blade groups for reverse rotation assembly (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed ( 1h) Double reversal drive or generator (1) driven vertical rotor blades water gravity turbine (8V) 41-60 sets power generation electrical product drive + both sides center support bearing load coalescence 0 approach counter reversal production compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   Horizontal axis (6E) driven by water (3E) Mach 1 to 30 with 6 types of moving blade groups for reverse rotation assembly (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed ( 1h) Counter-rotating drive or generator (1) driven vertical full-blade water gravity turbine (8V) 61-80 sets generator electric product drive + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation are fitted and assembled (9M) assembly + magnetic bearing load 0 approach + water (3E) Mach 1 to 30 with super high speed circumferential speed 1h) Double reversal drive or generator (1) driven vertical full-blade water gravity turbine (8V) 81-100 sets power generation electric product drive + both sides center support bearing load coalescence 0 approach counter reversal production compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   Horizontal axis (6E) driven by water (3E) Mach 1 to 30 with 6 types of moving blade groups for reverse rotation assembly (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed ( 1h) Counter-rotating drive or generator (1) driven vertical full-blade hydrogravity turbine (8V) 101-120 set generator electric product drive + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   Horizontal axis (6E) driven by water (3E) Mach 1 to 30 with 6 types of moving blade groups for reverse rotation assembly (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed ( 1h) Counter-rotating drive and generator (1) driven vertical all-blade water gravity turbine (8V) 121-140 set generator electric product drive + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   Horizontal axis (6E) driven by water (3E) Mach 1 to 30 with 6 types of moving blade groups for reverse rotation assembly (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed ( 1h) Counter-rotating drive and generator (1) driven vertical all-blade water gravity turbine (8V) 141-160 generator driven electric product drive + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   Horizontal axis (6E) driven by water (3E) Mach 1 to 30 with 6 types of moving blade groups for reverse rotation assembly (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed ( 1h) Double reversal drive or generator (1) driven vertical rotor blades water gravity turbine (8V) 161-180 sets Driven electric product drive + both sides center support bearing load coalescence 0 approach counter reversal production compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   Horizontal axis (6E) driven by water (3E) Mach 1 to 30 with 6 types of moving blade groups for reverse rotation assembly (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed ( 1h) Double reversal drive or generator (1) driven vertical all-blade water gravity turbine (8V) 181 to 200 sets Driven electric product drive + both sides center support bearing load coalescence 0 approach counter reversal production compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetically utilized bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With a counter-rotating drive and generator (1) vertical-type full-blade hydrogravity turbine (8V) driven by 1 to 20 sets of power generation electrical product drive + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With a counter-rotating drive or generator (1) driven full-scale blade hydrogravity turbine (8V) 21 to 40 generator electric product drive + both center support bearing load coalescence 0 approach counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetically utilized bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With a counter-rotating drive and generator (1) vertical-type full-blade hydrogravity turbine (8V) driven by 41 to 60 generator electric product drive + both center support bearing load coalescence 0 approach counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With a counter-rotating drive or generator (1) driven full-scale blade hydrogravity turbine (8V) 61-80 sets of power generation electric product drive + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With counter-rotating drive and generator (1) vertical-type full-blade hydrogravity turbine (8V) driven by 81-100 sets of power generation electrical product + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With a double reversal drive and generator (1) vertical full-blade hydrogravity turbine (8V) 101-120 generator driven electric product drive + both sides center support bearing load coalescence 0 approach counter reversal production compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With a counter-rotating drive and generator (1) vertical-type full-blade hydrogravity turbine (8V) 121-140 sets driven electric power product drive + both center support bearing load coalescence 0 approach counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With a counter-rotating drive or generator (1) driven full-scale blade hydrogravity turbine (8V) 141-160 generator driven electric product drive + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With a counter-rotating drive or generator (1) driven full-scale blade hydrogravity turbine (8V) 161-180 generator driven electric product drive + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for reverse rotation assembly (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed water (3E) Mach 30 aiming horizontal axis (1h) ) With a double reversal drive and generator (1) vertical full-blade hydrogravity turbine (8V) 181 to 200 set driven electric product drive + both sides center support bearing load coalescence 0 approach counter reversal production compressed air ( 28a) Various energy storage cycle coalescence engines and coalescence methods for driving coalescence.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim 1 to 20 sets of vertical all-blade hydrogravity turbine (8V) driven by counter-rotating drive and generator (1) driven by the horizontal axis (1h) for jet acceleration drive + both-side center support bearing load combination 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of approaching counter-rotating manufactured compressed air (28a) drive.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim Double axis reversal drive on horizontal axis (1h) driven by injection acceleration and vertical all-blade hydrogravity turbine (8V) driven by generator (1) 21-40 sets generator electric product drive + both center support bearing load combined 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of approaching counter-rotating manufactured compressed air (28a) drive.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim Double axis reversal drive on the horizontal axis (1h) driven by injection acceleration and vertical type moving blade water gravity turbine (8V) 41-60 set driven by generator (1) drive + electric product drive on both sides + center support bearing load combined 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of approaching counter-rotating manufactured compressed air (28a) drive.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim Double shaft reversal drive on horizontal axis (1h) driven by injection acceleration and vertical all-blade hydrogravity turbine (8V) 61-80 sets driven by generator (1) + both-side center support bearing load combined 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of approaching counter-rotating manufactured compressed air (28a) drive.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim Double reversal drive on horizontal axis (1h) driven by injection acceleration and vertical all-blade hydrogravity turbine (8V) driven by generator (1) 81 to 100 sets of power generation electric product drive + both center support bearing load combination 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of close counter-rotating manufactured compressed air (28a) drive.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim Double-rotating drive on horizontal axis (1h) driven by injection acceleration and vertical all-blade hydrogravity turbine (8V) 101-120 set driven by generator (1) + both-side center support bearing load combined 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of approaching counter-rotating manufactured compressed air (28a) drive.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim Double-rotating drive on horizontal axis (1h) driven by jet acceleration and vertical all-blade hydrogravity turbine (8V) driven by generator (1) 121-140 sets Driven electric product drive + both-side center support bearing load combined 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of approaching counter-rotating manufactured compressed air (28a) drive.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim Double axis reversal drive with horizontal axis (1h) driven by injection acceleration and vertical-type full-blade hydrogravity turbine (8V) 141-160 set driven by generator (1) Drive power generation electrical product drive + both center support bearing load combined 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of approaching counter-rotating manufactured compressed air (28a) drive.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim Double reversal drive on the horizontal axis (1h) driven by injection acceleration and vertical all-blade hydrogravity turbine (8V) 161-180 set driven by generator (1) Drive power generation electrical product drive + both center support bearing load combined 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of approaching counter-rotating manufactured compressed air (28a) drive.   6 types of rotating blades for 6 reverse rotations are assembled assembly part (9M) assembly + magnetic bearing load 0 approach + super high speed circumferential speed 0 resource amount maximum water (3E) Mach 30 aim Double reversal drive on the horizontal axis (1h) driven by injection acceleration or vertical-type full-blade hydrogravity turbine (8V) 181 to 200 driven by generator (1) drive + electric power product drive on both sides + both center support bearing load combination 0 Various energy storage cycle coalescing engine and coalescence method for coalescence of approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 1 to 20 pairs of full-rotating blade water gravity turbines (8V) driven by counter-rotating drive and generator (1) driven by the horizontal axis (1h) driven by injection acceleration at both sides and center support bearing load merge Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 Double axis reversal drive on the horizontal axis (1h) driven by injection, and vertical rotor blade water gravity turbine (8V) 21-40 sets driven by generator (1) + both-side center support bearing load combination Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 Double axis reversal drive on the horizontal axis (1h) driven by injection and vertical-type full-blade hydrogravity turbine (8V) driven by generator (1) 41 to 60 pairs of power generation electric product drive + both side center support bearing load combination Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 Horizontally driven (1h) driven by injection at the horizontal axis (1h) Double-rotating drive or generator (1) driven vertical full-blade hydrogravity turbine (8V) 61-80 sets generator electric product drive + both sides center support bearing load merge Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 Horizontally driven (1h) driven by injection at the horizontal axis (1h) Double reversal drive or generator (1) driven vertical rotor blades water gravity turbine (8V) 81-100 sets generator electric product drive + both sides center support bearing load merge Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 Double axis reversal drive on the horizontal axis (1h) driven by the injection and vertical-type full-blade water gravity turbine (8V) 101-120 set driven by the generator (1) + both-side center support bearing load combination Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 Double-rotating drive driven by the horizontal axis (1h) driven by injection, and vertical-type full-blade hydrogravity turbine (8V) driven by generator (1) 121-140 sets generator electric product drive + both center support bearing load merge Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 Double-rotation drive driven by the horizontal axis (1h) driven by injection and vertical-type full-blade hydrogravity turbine (8V) driven by generator (1) 141 to 160 sets of power generation electric product drive + both center support bearing load merge Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 Double-rotation drive driven by a horizontal axis (1h) driven by injection and a vertical all-blade hydrogravity turbine (8V) 161-180 driven by a generator (1) Drive power generation electrical product drive + both-side center support bearing load combination Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   6 kinds of rotating blades for reverse rotation are assembled assembly part (9M) assembly + magnetic utilization bearing load 0 approach + super high speed circumferential speed resource price 0 resource maximum water (3E) Mach 1-30 Double axis reversal drive on the horizontal axis (1h) driven by injection, and vertical-type full-blade water gravity turbine (8V) 181 to 200 sets driven by the generator (1) + both-side center support bearing load combination Various energy storage cycle coalescing engine and coalescence method for coalescence of zero approaching counter-rotating manufactured compressed air (28a) drive.   Outer rotor blade group of outer rotor blade (60d) in which outer shaft device (60B) and fitting assembly portion (9M) are assembled with outer inlet blade (60e) annular fitting assembly fixed to wear-resistant super water-repellent plating (3a) 1 to 200 sets of vertical-type full-blade hydrogravity turbines (8V) driven by magnetic bearings constituting ultra-high speed and circumferential speed at super high speed + both-side center support bearing load coalescence 0 approach double reversal manufacture Various energy storage cycle coalescence engines and coalescence methods for coalescence of compressed air (28a) drive.   Inner rotor blade group of inner rotor blade (60c) in which inner shaft device (60A) and fitting assembly part (9M) are assembled with inner inlet blade (60f) annular fitting assembly fixed to wear-resistant super water-repellent plating (3a) 1 to 200 sets of vertical-type full-blade hydrogravity turbines (8V) driven by magnetic bearings constituting ultra-high speed and circumferential speed at super high speed + both-side center support bearing load coalescence 0 approach double reversal manufacture Various energy storage cycle coalescence engines and coalescence methods for coalescence of compressed air (28a) drive.   The outer intermediate blade group of the outer moving blade (60d) in which the outer shaft device (60B) and the fitting assembly portion (9M) are assembled as an outer intermediate blade (60g) in an annular fitting assembly to provide a wear-resistant super water-repellent plating (3a). 1 to 200 sets of vertical-type full-blade hydrogravity turbines (8V) driven by magnetic bearings constituting ultra-high speed and circumferential speed at super high speed + both-side center support bearing load coalescence 0 approach double reversal manufacture Various energy storage cycle coalescence engines and coalescence methods for coalescence of compressed air (28a) drive.   Inner intermediate blade group of inner rotor blade (60c) in which inner shaft device (60A) and fitting assembly portion (9M) are assembled with inner intermediate blade (60h) annular fitting assembly to provide wear-resistant super-water-repellent plating (3a) 1 to 200 sets of vertical-type full-blade hydrogravity turbines (8V) driven by magnetic bearings constituting ultra-high speed and circumferential speed at super high speed + both-side center support bearing load coalescence 0 approach double reversal manufacture Various energy storage cycle coalescence engines and coalescence methods for coalescence of compressed air (28a) drive.   The outer intermediate blade group of the outer moving blade (60d) in which the outer shaft device (60B) and the fitting assembly portion (9M) are assembled as an outer intermediate blade (60g) in an annular fitting assembly to provide a wear-resistant super water-repellent plating (3a). 2 or more times of using magnetic bearing load 0 approach + super-high speed peripheral water hydrogravity turbine (8V) 1 to 200 sets of power generation electric product drive + both sides center support bearing load merge 0 approach 2 Various energy storage cycle coalescence engine and coalescence method for coalescence of heavy inversion manufactured compressed air (28a) drive.   Inner intermediate blade group of inner rotor blade (60c) in which inner shaft device (60A) and fitting assembly portion (9M) are assembled with inner intermediate blade (60h) annular fitting assembly to provide wear-resistant super-water-repellent plating (3a) 2 or more times of using magnetic bearing load 0 approach + super-high speed peripheral water hydrogravity turbine (8V) 1 to 200 sets of power generation electric product drive + both sides center support bearing load merge 0 approach 2 Various energy storage cycle coalescence engine and coalescence method for coalescence of heavy inversion manufactured compressed air (28a) drive.   Outlet blade group of inner rotor blade (60c) in which inner shaft device (60A) and fitting assembly portion (9M) are assembled with inner outlet blade (60j) annular fitting assembly fixed to wear-resistant super water-repellent plating (3a) 1 to 200 sets of vertical-type full-blade hydrogravity turbines (8V) driven by magnetic bearings constituting ultra-high speed and circumferential speed at super high speed + both-side center support bearing load coalescence 0 approach double reversal manufacture Various energy storage cycle coalescence engines and coalescence methods for coalescence of compressed air (28a) drive.   Outer rotor blade group of outer rotor blade (60d) in which outer shaft device (60B) and fitting assembly portion (9M) are assembled with outer outlet blade (60k) annular fitting assembly fixed to wear-resistant super water-repellent plating (3a) 1 to 200 sets of vertical-type full-blade hydrogravity turbines (8V) driven by magnetic bearings constituting ultra-high speed and circumferential speed at super high speed + both-side center support bearing load coalescence 0 approach double reversal manufacture Various energy storage cycle coalescence engines and coalescence methods for coalescence of compressed air (28a) drive.   The next outer shaft device (60B) + outer blade (by driving the outer shaft (60B) and the outer rotor blade (60d), which is a wear-resistant super water-repellent plating (3a), with a horizontal shaft (1h) gear. 60d) Magnetically driven bearing load approaching 0 with ultra-high speed circumferential speed (reversing rotation and reverse rotation) and driving with a high-speed circumferential speed of 1 to 200 sets of power generation electric product drive + Both energy saving cycle coalescence engine and coalescence method for coalescence of both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) drive.   The next outer shaft device (60B) + outer blade (by driving the outer shaft (60B) and the outer rotor blade (60d), which is a wear-resistant super water-repellent plating (3a), with a horizontal shaft (1h) gear. 60d) A vertical full-blade hydrogravity turbine with a reverse rotation of the rotation direction and a small amount of resonance and noise to make the inner shaft device (60A) counteract with the magnetic bearing load that is double-reversed and driven close to 0 + super high speed circumferential speed 8V) Various energy storage cycle coalescence engines and coalescence methods for coalescence of 1 to 200 sets of generator / electric product drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive.   A vertical-type full-blade hydrogravity turbine (8V) with a solar heater (21) provided with buoyancy on the water surface, with the solar-heated air having a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed. Low-cost electricity-driven simple compressor (3s) compresses one or more times, and at each compression, heat recovery liquid oxygen production machine (88l) heat-produces with high-pressure high-temperature water heating pipe (5H), electricity + liquid Various energy storage cycle coalescence engines and coalescence methods for air cold heat + high temperature water to superheated steam heat supply equipment (3D) feed drive + both center support bearing load coalescence 0 approach counter-rotating manufactured 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. Vertically moving blade water gravity turbine (8V) with 0 approach + super high speed circumferential speed (8V) Compressed one or more times with a simple compressor (3s) of extremely inexpensive power generation electric drive, and high pressure high temperature water heating for each compression Heat recovery liquid oxygen production machine (88 l) heat production with pipe (5H), electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) feed drive + both sides center support bearing load coalescence 0 approach 2 Various energy storage cycle coalescing engines and coalescence methods for driving inversion manufactured compressed air (28a) drive coalescence.   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 vertical rotating blade hydrogravity turbine in which sunlight is rotated and maintained at a right angle in the vertical direction, and the solar heating air has a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed. (8V) Compressed one or more times with a simple compressor (3s) of extremely inexpensive power generation electric drive, and heat recovery liquid oxygen production machine (88l) with a high pressure high temperature water heating pipe (5H) for each compression , Electric + Liquid air cold heat + High temperature water to superheated steam heat supply equipment (3D) Feed drive + Both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) drive coalescence various coalescence engine And coalescing 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 rotation of the sunlight at a right angle in the vertical direction and as a device for controlling rotation at a right angle in the east-west direction by using buoyancy, the sunlight is linearly irradiated around the center of the heat absorption tube (4H). A simple compressor (3 s) with an extremely low cost generator / electric drive, using a vertical-type full-blade hydrogravity turbine (8V) with the highest air (28a) temperature and a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed. ~ Compression multiple times, heat recovery liquid oxygen production machine (88l) heat production with high pressure high temperature water heating pipe (5H) for each compression, electricity + liquid air cold heat + high temperature water ~ superheated steam heat supply equipment (3D) Various types of energy for feed drive and combined drive Formic save 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 rotation of the sunlight at a right angle in the vertical direction and as a device for controlling rotation at a right angle in the east-west direction by using buoyancy, the sunlight is linearly irradiated around the center of the heat absorption tube (4H). A vertical full-blade hydrogravity with maximum air (28a) temperature and external air (28a) heating each air passage (28A) as a high temperature selective suction, with magnetic bearing load approaching 0 + super high speed circumferential speed Turbine (8V) Compressed one or more times with a simple compressor (3s) of extremely inexpensive power generation and electric drive, and heat-recovered liquid oxygen production machine (88l) with a high-pressure high-temperature water heating pipe (5H) for each compression. Electricity + liquid air cooling + high Water-superheated steam heat supply facilities (3D) feed drive + sides center support bearing load united 0 close counterrotating producing compressed air (28a) various energy conservation cycle combined engine and coalescence process for the driving coalesce.   Vertical full-blade hydrogravity turbine (8V) extreme with solar heater (21) provided with circular railway on flat ground and solar heated air with magnetic bearing load approaching 0 + super high speed circumferential speed Compressed one or more times with a simple compressor (3 s) driven by low-cost power generation, and heat-recovered liquid oxygen production machine (88 l) with a high-pressure high-temperature water heating pipe (5H) for each compression, Liquid energy cold heat + hot water to superheated steam heat supply equipment (3D) feed drive + double-sided center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) drive coalescence and various energy conservation cycle coalescence engines and coalescence methods.   The solar heater (21) is provided with a circular railroad on a flat ground, and includes a rotation support portion (4f) for controlling and rotating the sunlight at a right angle from east to west, and the solar heating air is used as a magnetic bearing. Vertically moving blade water gravity turbine (8V) with zero load approach + super high speed circumferential speed (8V) Compressed one or more times with a simple compressor (3s) with extremely low cost electric drive, high pressure high temperature water for each compression Heat recovery liquid oxygen production machine (88 l) heat production with heating pipe (5H), electricity + liquid air cold heat + hot water to superheated steam temperature heat supply equipment (3D) feed drive + both sides center support bearing load coalescence approach 0 Various energy storage cycle coalescing engine and coalescence method for driving counter rotating manufactured 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 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 vertical rotating blade water gravity is obtained by using a device that controls rotation by maintaining sunlight at a right angle in the vertical direction, and using solar heated air with a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed. Turbine (8V) Compressed one or more times with a simple compressor (3s) of extremely inexpensive power generation and electric drive, and heat-recovered liquid oxygen production machine (88l) with a 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 bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) drive coalescence Organization 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). A simple compressor (3s) with an extremely low power generation and electric drive, a vertical-type full-blade hydrogravity turbine (8V) with the maximum temperature of the irradiated internal air (28a), a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed. Compressed one or more times, and at each compression, the heat recovery liquid oxygen production machine (88 l) is heated by the high-pressure high-temperature water heating pipe (5H), 3D) Feed drive + both sides center support shaft Various energy saving cycles combined engine and coalescence process for the load coalesce 0 close counterrotating producing compressed air (28a) driven coalescence.   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). A vertical all-blade with maximum temperature of the internal air (28a) irradiated and the external air (28a) heated to each air passage (28A) as a high-temperature selective suction with a magnetic bearing load approaching 0 and an ultra-high speed circumferential speed Water gravity turbine (8V) Compressed one or more times with a simple compressor (3s) of extremely inexpensive power generation electric drive, heat recovery liquid oxygen production machine (88l) heat with high pressure high temperature water heating pipe (5H) for each compression Manufacture, electricity + liquid air Hot + hot water - superheated steam heat supply facilities (3D) feed drive + sides center support bearing load united 0 close counterrotating producing compressed air (28a) various energy conservation cycle combined engine and coalescence process for the driving coalesce.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More energy storage cycle coalescence engine and coalescence method for driving liquid oxygen (5K) receiving drive + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More energy storage cycle coalescence engine and coalescence method driven by liquid oxygen (5K) superheated steam (50) receiving drive + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Liquid oxygen (5K) superheated steam (50) is supplied to a plurality of theoretical combustion chambers (4Q) + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) driven various energy storage cycle coalescence engine Method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More energy storage cycle coalescence engines that drive liquid oxygen (5K) superheated steam (50) to a plurality of theoretical combustion chambers (4Q) combined drive + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) and Merge method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More energy storage cycle coalescence that drives liquid oxygen (5K) superheated steam (50) to multiple theoretical combustion chambers (4Q) combined rocket combustion drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) Organization and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More energy storage cycles to drive liquid oxygen (5K) superheated steam (50) to multiple theoretical combustion chambers (4Q) combined rocket combustion additional drive + double-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) Merger engine and merger method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More energy to drive liquid oxygen (5K) superheated steam (50) to multiple theoretical combustion chambers (4Q) combined rocket combustion + jet combustion drive + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) Storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More liquid oxygen (5K) superheated steam (50) receiving in multiple theoretical combustion chambers (4Q) rocket combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) various energy storage cycle coalescence engine And coalescing method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More liquid oxygen (5K) superheated steam (50) receiving rocket combustion in multiple theoretical combustion chambers (4Q) + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) theoretical combustion chamber (4Q) jet combustion Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More liquid oxygen (5K) superheated steam (50) receiving in multiple theoretical combustion chambers (4Q) rocket combustion + both side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) theoretical combustion chamber (4Q) jet combustion drive Various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) as a combustion and driving an automobile.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods for driving and driving a car.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods for driving and driving a vehicle.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engine and coalescence method for storing in a simple gas engine (88m) drive generator (1) drive accumulator (1A) as combustion and driving the battery drive wheel (4J) rotating simple gas engine automobile (7r).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Drive energy generator (1) Various energy storage cycle coalescence engine and coalescence method for accumulating power in a drive battery (1A) and driving a battery drive wheel (4J) rotating simple gas engine vehicle (7r).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Drive generator (1) Various energy storage cycle coalescence engine and coalescence method for storing in the drive battery (1A) and driving the battery drive wheel (4J) rotating simple gas engine vehicle (7r).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Simple gas engine (88m) drive generator as combustion (1) Various energy storage to store in battery (1A) and drive simple battery engine (7r) capable of rotating battery drive wheel (4J) and normal wheel Cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine vehicle (7r) capable of accumulating in a drive generator (1) drive battery (1A) and rotating the battery drive wheels (4J) and normal wheels.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Driving generator (1) Various energy storage cycle coalescence engine and coalescence method for driving a simple gas engine vehicle (7r) capable of rotating the storage battery drive wheel (4J) and normal wheel by accumulating in the drive accumulator (1A) .   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) as combustion and driving a simple gas engine automobile (7r).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) as combustion and driving a screw (7C) rotating ship.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engine and coalescence method for driving and driving a screw (7C) rotating ship.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods for driving and driving a screw (7C) rotating ship.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescing engines and coalescence methods for driving a simple gas engine (88m) 1 to plural and driving a screw (7C) plural revolutions as a combustion as a combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1. Various energy storage cycle coalescing engine and coalescence method for driving a plurality of screws and driving a screw (7C) a plurality of rotations.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods that drive 1 to plural and drive a screw (7C) multiple rotations.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) 1 to a plurality of combustion and driving a screw (7C) multiple rotation simple gas engine ship (7s) as combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods that drive one or more and drive a screw (7C) multiple rotation simple gas engine ship (7s).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescing engines and coalescence methods for driving 1 to a plurality of screws and driving a screw (7C) multi-turn simple gas engine ship (7s).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) as combustion and driving a simple gas engine ship (7s).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) as combustion and driving an injection propulsion ship such as a screw (7C) rotating simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods that drive and drive a propulsion vessel such as a screw (7C) rotating simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 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 (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) 1 to a plurality of combustion and driving an injection propulsion ship such as a screw (7C) multiple rotation simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescing engines and coalescence methods for driving one or more to drive an injection propulsion ship such as a screw (7C) multi-turn simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods for driving one or more to drive an injection propulsion ship such as a screw (7C) multiple rotation simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) 1 to a plurality of combustion and driving a propulsion screw injection ship such as a screw (7C) multiple rotation simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods for driving one or more to drive a screw (7C) multiple rotation simple water injection engine (88n), etc.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods for driving one or more to drive a screw (7C) multi-rotation simple water injection engine (88n), etc.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) as combustion and driving a simple water injection engine (88n) injection propulsion screw injection ship.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Multiple ultra-high pressure fuel combustion injection propulsion + Double-side center support bearing load coalescence 0 approaching counter-rotating production compression Various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion ship such as a simple water injection engine (88n) in which air (28a) is burned.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple water that receives cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra-high pressure multiple fuel combustion injection propulsion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion Various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion ship such as an injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra-high pressure multiple fuel combustion injection propulsion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion Various energy storage cycle coalescing engines and coalescence methods for driving an injection propulsion ship such as a simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) and having a theoretical combustion chamber (4Q) air suction flow path with a compression volume of 21/60000 of air compression. Various energy storage cycle coalescing engines and coalescence methods for driving an injection propulsion ship such as a simple water injection engine (88n) that uses compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, including a theoretical combustion chamber (4Q) air suction channel, multiple ultrahigh pressure fuel combustion injection propulsion + both-side center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a ) Various energy storage cycle coalescence engine and coalescence method for driving a propulsion vessel such as a simple water injection engine (88n) as a combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) equipped with air suction flow path, multiple ultra high pressure fuel combustion injection propulsion + both sides center support bearing load coalescence 0 approach double reversal manufacturing compression Various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion ship such as a simple water injection engine (88n) in which air (28a) is burned.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) and having a theoretical combustion chamber (4Q) air suction flow path with a compression volume of 21/60000 of air compression. Simplified water injection engine (88n) injection propulsion simple water injection engine ship (7u) driven by close counter-rotating manufactured compressed air (28a) combustion Various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, including a theoretical combustion chamber (4Q) air suction channel, multiple ultrahigh pressure fuel combustion injection propulsion + both-side center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a ) Combustion simple water injection engine (88n) injection propulsion simple water injection engine ship (7u) various energy storage cycle coalescence engine and coalescence method to drive.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) equipped with air suction flow path, multiple ultra high pressure fuel combustion injection propulsion + both sides center support bearing load coalescence 0 approach double reversal manufacturing compression A simple water injection engine (88n) injection propelled simple water injection engine ship (7u) driven by air (28a) combustion Various energy storage cycle coalescing engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) and setting the compression volume to 21/60000 of air compression Multiple theoretical combustion chambers (4Q) + Both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) combustion Simple energy injection engine (88n) injection propulsion simple water injection engine ship (7u) various energy storage cycle coalescing engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Multiple ultra-high pressure fuel combustion injection propulsion + Double-side center support bearing load coalescence 0 approaching counter-rotating production compression Various energy storage cycle coalescing engine and coalescence method to make a simple injection engine (88o) injection propulsion airplane with air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple injection that receives cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) multiple ultra-high pressure fuel combustion injection propulsion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion Engine (88o) Various energy conservation cycle coalescence engine and coalescence method to make an injection propulsion airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion injection propulsion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion Various energy storage cycle coalescing engine and coalescence method for making a simple injection engine (88o) jet propulsion airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) and having a theoretical combustion chamber (4Q) air suction flow path with a compression volume of 21/60000 of air compression. Various energy storage cycle coalescing engine and coalescence method for making a simple injection engine (88o) injection propulsion airplane with combustion in close counter-rotating manufactured compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, including a theoretical combustion chamber (4Q) air suction channel, multiple ultrahigh pressure fuel combustion injection propulsion + both-side center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a ) Combustion simple injection engine (88o) Various energy storage cycle coalescence engine and coalescence method to make an injection propulsion airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) equipped with air suction flow path, multiple ultra high pressure fuel combustion injection propulsion + both sides center support bearing load coalescence 0 approach double reversal manufacturing compression Various energy storage cycle coalescing engine and coalescence method to make a simple injection engine (88o) injection propulsion airplane with air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) and having a theoretical combustion chamber (4Q) air suction flow path with a compression volume of 21/60000 of air compression. Various energy storage cycle coalescing engine and coalescence method for driving a simple injection engine (88o) injection propelled simple injection engine airplane (7v) with close counter-rotating manufactured compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, including a theoretical combustion chamber (4Q) air suction channel, multiple ultrahigh pressure fuel combustion injection propulsion + both-side center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a ) Combustion simple injection engine (88o) injection propulsion simple injection engine airplane (7v) various energy storage cycle coalescence engine and coalescence method to drive.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) equipped with air suction flow path, multiple ultra high pressure fuel combustion injection propulsion + both sides center support bearing load coalescence 0 approach double reversal manufacturing compression A simple injection engine (88o) that uses air (28a) combustion, a simple injection engine, an airplane (7v), and various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) and setting the compression volume to 21/60000 of air compression Multiple theoretical combustion chambers (4Q) + Both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) combustion Various energy storage cycle coalescence engine and coalescence method for driving simple injection engine (88o) injection propulsion simple injection airplane (7v).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods that drive a simple gas engine (88m) as combustion and drive a propeller (7A) rotating airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle merging engines and merging methods for driving and driving a propeller (7A) rotating airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle merging engines and merging methods for driving and propeller (7A) rotating airplane drive.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) 1 to multiple propellers (7A) to drive a multiple-rotation airplane as combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescing engine and coalescence method for driving a plurality of propellers (7A) and driving a plurality of rotating airplanes.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescing engines and coalescence methods for driving one to a plurality of propellers (7A) to drive a multi-rotation airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) 1 to multiple propellers (7A) multiple rotation simple gas engine airplane (7t) as combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1. Various energy storage cycle coalescing engine and coalescence method for driving a plurality of propellers (7A) and a multi-turn simple gas engine airplane (7t).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescing engine and coalescence method in which one to plural driving and propeller (7A) plural rotation simple gas engine airplane (7t) are driven.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) as combustion and driving a propeller (7A) rotating simple gas engine airplane (7t).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engine and coalescence method for rotating a simple gas engine (88m) driven rotor blade (7B) as a combustion and driving an airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescing engine and coalescence method for driving a rotating rotor blade (7B) to drive an airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Drive rotor (7B) Various energy storage cycle coalescing engine and coalescence method for rotating and driving an airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Simple gas engine (88m) 1 to multiple drive rotor blades (7B) as combustion, various energy storage cycle coalescing engine and coalescence method for driving the airplane by plural revolutions.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1 to multiple drive rotor blades (7B) various energy storage cycle coalescing engine and coalescence method for driving an airplane by making multiple revolutions.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1 to multiple drive rotor blades (7B) various energy storage cycle coalescence engines and coalescence methods for driving the aircraft by multiple revolutions.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) 1 to multiple drive rotor blades (7B) and rotating rotor airplane (7w) as combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1-multiple drive rotor (7B) various energy storage cycle coalescing engine and coalescence method for driving a rotorcraft (7w) by rotating a plurality of rotor blades (7B).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1 to multiple drive rotor blades (7B) various energy storage cycle coalescing engines and coalescence methods for driving the rotor blade airplane (7w) with multiple rotations.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescing engine and coalescence method for driving a simple gas engine (88m) driven rotor blade (7B) as a combustion and rotating the rotor blade airplane (7w).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) A simple gas engine (88m) drive propeller (7A) as combustion, and a simple injection engine (88o) various types of energy storage cycle coalescence engine and coalescence method for driving an injection propulsion airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engine and coalescence method for driving propeller (7A) to rotate and driving simple injection engine (88o) injection propulsion airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Driving propeller (7A) Rotating simple injection engine (88o) Various energy storage cycle coalescing engine and coalescence method for driving an injection propulsion airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) A simple gas engine (88m) 1 to a multiple drive propeller (7A) as a combustion, a simple injection engine (88o) various energy storage cycle coalescence engine and a coalescence method for driving an injection propulsion airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1-multiple drive propeller (7A) multiple energy storage cycle coalescing engine and coalescing method for driving multiple injection and simple injection engine (88o) injection propulsion airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1-multiple drive propeller (7A) multiple rotation and simple injection engine (88o) various energy storage cycle coalescence engine and coalescence method for driving an injection propulsion airplane.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) 1 to a multiple drive propeller (7A) as combustion and driving a simple injection engine (88o) injection propulsion simple gas engine airplane (7t) and the like.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1-multiple drive propeller (7A) various energy storage cycle coalescence engine and coalescence method for driving multiple injections, simple injection engine (88o) injection propulsion simple gas engine airplane (7t), etc.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1-multiple drive propeller (7A) various energy storage cycle coalescing engine and coalescence method for driving a plurality of revolutions, simple injection engine (88o) injection propulsion simple gas engine airplane (7t), etc.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) drive propeller (7A) as combustion and driving a simple injection engine (88o) injection propulsion simple gas engine airplane (7t) and the like.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engine and coalescence method in which high pressure high temperature combustion gas (5M) is injected and driven by a simple gas engine (88m).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) super high pressure fuel combustion + both sides center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion, high pressure high temperature combustion gas ( Various energy storage cycle coalescing engine and coalescence method for driving a simple gas engine (88m) by injecting 5M).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion, high pressure and high temperature Various energy storage cycle coalescing engine and coalescence method for injecting combustion gas (5M) and driving a simple gas engine (88m).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engine and coalescence method driven by a simple gas engine (88m) in which combustion is performed and high pressure high temperature combustion gas (5M) is injected and the horizontal axis (1h) is double-reversed.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) super high pressure fuel combustion + both sides center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion, high pressure high temperature combustion gas ( Various energy storage cycle coalescence engines and coalescence methods driven by a simple gas engine (88m) that injects 5M) and inverts the horizontal axis (1h).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion, high pressure and high temperature Various energy storage cycle coalescence engines and coalescence methods driven by a simple gas engine (88m) that injects combustion gas (5M) and reverses the horizontal axis (1h).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engines and coalescence methods, in which combustion is performed and high-pressure high-temperature combustion gas (5M) is injected to drive a plurality of simple gas engines (88m) in the horizontal axis (1h).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) super high pressure fuel combustion + both sides center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion, high pressure high temperature combustion gas ( 5M) and various energy storage cycle coalescence engines and coalescence methods for driving a plurality of simple gas engines (88m) with a plurality of contra-rotating horizontal axes (1h).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion, high pressure and high temperature Various energy storage cycle coalescence engines and coalescence methods in which combustion gas (5M) is injected to drive a horizontal gas (1h) double inversion multiple simple gas engines (88m).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Two types of theoretical combustion chambers (4Q) that receive cheaper liquid oxygen (5K) and make the compression volume 21/60000 of air compression (4Q) ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescence engines and coalescence methods in which high-pressure high-temperature combustion gas (5M) is injected and the horizontal axis (1h) is driven by a plurality of simple inversion gas engines (88m).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescing engine and coalescence method to make simple gas engine (88m) as combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescing engine and coalescence method to make simple gas engine (88m) to maximum speed as combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Simple gas that receives less expensive liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion Various energy conservation cycle coalescing engines and coalescence methods for an engine (88 m).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, theoretical combustion chamber (4Q) super high pressure fuel combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion to maximum speed Various energy storage cycle coalescence engine and coalescence method to make a simple gas engine (88m).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescence engine and coalescence method to make a simple gas engine (88m) with maximum driving speed as combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Easy to receive cheaper liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion to maximum driving speed Various energy storage cycle coalescence engine and coalescence method for gas engine (88m).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Received less expensive liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion maximum driving speed Various energy storage cycle coalescence engine and coalescence method to make a simple gas engine (88m).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Theoretical combustion chamber (4Q) that receives cheaper liquid oxygen (5K) and makes the compression volume 21/60000 of air compression Ultra high-pressure fuel combustion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a ) Various energy storage cycle coalescing engine and coalescence method to make simple gas engine (88m) to maximum speed as combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K), liquid fuel (1c) and water (52a) are compressed with liquid, compression volume is 21/60000 volume of air compression, etc. Ultra high pressure compression fuel injection combustion + both sides center support Bearing load coalescence 0 approaching counter-rotating production compressed air (28a) Two kinds of theoretical combustion chambers (4Q) for burning various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, compressing liquid fuel (1c) and water (52a) with liquid, compression volume is 21/60000 volume of air compression, etc. Ultra high pressure compressed fuel injection combustion + both sides Center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Two types of theoretical combustion chambers (4Q) to burn various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives cheaper liquid oxygen (5K) + electricity + hot water, compresses liquid fuel (1c) and water (52a) with liquid, and compresses the compressed volume with 21/60000 volume of air compression, etc. Ultra high pressure compressed fuel injection Combustion + both center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Various energy storage cycle coalescence engine and coalescence method to make two kinds of theoretical combustion chambers (4Q).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K), liquid fuel (1c) and water (52a) are compressed by liquid + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) and burning two kinds of theory Various energy storage cycle coalescence engine and coalescence method for heating to the optimum temperature on the inner wall of the combustion chamber (4Q).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Less expensive liquid oxygen (5K) + electricity is received, liquid fuel (1c) and water (52a) are compressed with liquid + both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) and burning 2 Type Theoretical combustion chamber (4Q) Various energy storage cycle coalescence engine and coalescence method for heating to the optimum temperature on the inner wall.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, liquid fuel (1c) and water (52a) compressed by liquid + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) combustion Then, various energy storage cycle coalescence engines and coalescence methods for heating to the optimum temperature on the inner walls of the two kinds of theoretical combustion chambers (4Q).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K), liquid fuel (1c) and water (52a) are compressed by liquid + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) and burning two kinds of theory Various energy storage cycle coalescence engines and coalescence methods for opening the heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature on the inner wall of the combustion chamber (4Q).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Less expensive liquid oxygen (5K) + electricity is received, liquid fuel (1c) and water (52a) are compressed with liquid + both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) and burning 2 Various energy storage cycle coalescence engines and coalescence methods that open the heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature on the inner wall of the type theoretical combustion chamber (4Q).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, liquid fuel (1c) and water (52a) compressed by liquid + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) combustion Then, various energy storage cycle coalescence engines and coalescence methods for opening the heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature on the inner wall of the two kinds of theoretical combustion chambers (4Q).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + hot water, liquid fuel (1c) and water (52a) compressed with liquid + both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) burning Various types of energy storage cycle coalescence engine that injects heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) together with open received superheated steam to the optimum temperature on the inner wall of two types of theoretical combustion chamber (4Q), and Merge method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K), heating oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) open to optimum temperature + heating superheated steam (50) + both sides center Support bearing load coalescence 0 approach counter-rotating production Compressed air (28a) Two kinds of theoretical combustion chambers (4Q) to burn various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity, open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + heat superheated steam (50) + Both-side center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Two types of theoretical combustion chambers (4Q) to burn various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + superheated steam (50) Heat energy + both-side center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Two types of theoretical combustion chamber (4Q) to burn various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K), open heating oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + heat up superheated steam (50) + Both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion 2 types of theoretical combustion chamber (4Q) various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper 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) high temperature + Both-side center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion 2 types of theoretical combustion chamber (4Q) Various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + superheated steam (50) Heating high temperature + Both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion 2 types of theoretical combustion chamber (4Q) Various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K), open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimal temperature + heat superheated steam (50) + both sides Center support bearing load coalescence 0 approach counter-rotating production Compressed air (28a) Combustion 2 types of theoretical combustion chamber (4Q) Various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity, open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + heat superheated steam (50) + Both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion 2 types of theoretical combustion chamber (4Q) various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, open heated oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) to the optimum temperature + superheated steam (50) + Both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion 2 types of theoretical combustion chamber (4Q) Various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + hot water, heating oxygen injection nozzle (6L) + fuel injection nozzle (6X) + superheated steam injection nozzle (6A) at the optimum temperature Open oxygen fuel burner near the center 3000 ° C The outer superheated steam (50) including the received superheated steam is heated by the above combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) Combustion 2 types of theoretical combustion chamber (4Q) Organization and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K), high-pressure high-temperature combustion gas (5M) injection accelerated injection with multiple theoretical combustion chambers (4Q) + both-side center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescing engines and coalescence methods for a simple water injection engine (88n) for combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Received cheaper liquid oxygen (5K) + electricity, high-pressure high-temperature combustion gas (5M) injection accelerated injection with multiple theoretical combustion chambers (4Q) + double-side center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescing engines and coalescence methods in a simple water injection engine (88n) for combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, high pressure high temperature combustion gas (5M) injection accelerating injection with multiple theoretical combustion chambers (4Q) + double-sided center support bearing load coalescence 0 approaching double reversal manufacturing Various energy storage cycle coalescing engines and coalescing methods in a simple water injection engine (88n) for compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K), use high pressure high temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) inner wall oxygen + fuel + superheated steam heated at optimal temperature + both sides Center support bearing load coalescence 0 approach counter-rotating production Compressed air (28a) Various energy storage cycle coalescence engine and coalescence method for simple water injection engine (88n) to burn.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity, and use high pressure and high temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) oxygen + fuel + superheated steam on the inner wall and use at optimum temperature + Both-side center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescence engine and coalescence method for simple water injection engine (88n) burning.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, and heat 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) Used + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) various energy storage cycle coalescing engine and coalescence method to burn simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Received less expensive liquid oxygen (5K), theoretically heated (4Q) oxygen + fuel + superheated steam on the inner wall with high pressure and high temperature combustion gas (5M) equipped with two types of theoretical combustion chambers (4Q). Various energy storage cycle coalescence engines and coalescence methods in a simple water injection engine (88n) for combustion chamber (4Q) combustion + both center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives cheaper liquid oxygen (5K) + electricity, and heats (4Q) inner wall oxygen + fuel + superheated steam at the optimum temperature with high-pressure high-temperature combustion gas (5M) equipped with two types of theoretical combustion chambers (4Q). Various energy storage cycle coalescing engines and coalescence methods, which are a simple water injection engine (88n) that performs combustion in a theoretical combustion chamber (4Q) combustion + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, and optimize the (4Q) inner wall oxygen + fuel + superheated steam with high pressure and high temperature combustion gas (5M) equipped with two kinds of theoretical combustion chambers (4Q) Various energy storage cycle coalescence engine and coalescence method as a simple water injection engine (88n) which is heated to heat the theoretical combustion chamber (4Q) combustion + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion .   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + hot water and overheating including oxygen + fuel + receiving hot water on the inner wall of (4Q) with high-pressure and high-temperature combustion gas (5M) equipped with two types of theoretical combustion chambers (4Q) Various energy conservation cycle coalescence engine made into simple water injection engine (88n) which makes steam burn at optimum temperature to make theoretical combustion chamber (4Q) combustion + both sides center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion And coalescing method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K), heat oxygen + fuel + superheated steam at the optimum temperature on one kind of inner wall, theoretical combustion chamber (4Q) combustion + both-side center support bearing load coalescence 0 approach double reversal manufacturing compression Various energy storage cycle coalescing engines and coalescing methods in a simple water injection engine (88n) for air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Less expensive liquid oxygen (5K) + electricity is received, oxygen + fuel + superheated steam is heated at the optimum temperature on one kind of inner wall, theoretical combustion chamber (4Q) combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engine and coalescence method in a simple water injection engine (88n) for combustion of compressed air (28a) manufactured.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, heat oxygen + fuel + superheated steam on one kind of inner wall at optimum temperature, theoretical combustion chamber (4Q) combustion + two-side center support bearing combined load 0 approach Various energy storage cycle coalescence engines and coalescence methods in a counter-rotating manufactured compressed air (28a) combustion simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K), heat oxygen + fuel + superheated steam at the optimum temperature on one kind of inner wall, and burn in the theoretical combustion chamber (4Q) + double-sided center support bearing load coalescence 0 approaching double reversal manufacturing Various energy storage cycle coalescing engines and coalescing methods in a simple water injection engine (88n) for compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Less expensive liquid oxygen (5K) + electricity is received, oxygen + fuel + superheated steam is heated at the optimum temperature on one kind of inner wall, and the theoretical combustion chamber (4Q) burns + double-sided center support bearing load coalescence 0 approach double Various energy storage cycle coalescing engine and coalescence method in a simple water injection engine (88n) for combustion with inverted manufactured compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, oxygen + fuel + superheated steam is heated at the optimum temperature on one kind of inner wall, and burn the theoretical combustion chamber (4Q) + both sides center support bearing load coalescence 0 Various energy storage cycle coalescing engine and coalescence method in a simple water injection engine (88n) for combustion with near contra-rotating manufactured compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives cheaper liquid oxygen (5K), heats the oxygen + fuel + superheated steam at the optimum 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 + Both-side center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescence engine and coalescence method for simple water injection engine (88n) burning.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, heating oxygen + fuel + superheated steam on the inner wall at the optimum temperature, and heating the superheated steam (50) in the high-temperature water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion Heat injection + both center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) various energy storage cycle coalescing engine and coalescence method for burning simple water injection engine (88n).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, heat oxygen + fuel + superheated steam on the inner wall at the optimum temperature, and superheated steam (5H) in the hot water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion ( 50) Various energy storage cycle coalescence engines and coalescence methods, which are heating injection + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) and simple water injection engine (88n) to burn.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + hot water, heat oxygen + fuel + superheated steam at the inner wall at the optimum temperature, and receive superheated steam 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 the superheated steam (50) is a simple water injection engine (88n) that burns by heating injection + both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K), the air (28a) also has the theoretical combustion chamber (4Q) in the optimum place of the suction injection flow, as well as combustion injection + both-side center support bearing load coalescence 0 approaching counter rotating manufactured compressed air ( 28a) Various energy storage cycle coalescing engines and coalescence methods for a simple water injection engine (88n) that burns.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, the air (28a) suction injection flow at the optimum location is also equipped with multiple theoretical combustion chambers (4Q) combustion injection + both sides center support bearing load coalescence 0 approach double reversal Manufacturing compressed air (28a) Various energy storage cycle coalescing engine and coalescence method in a simple water injection engine (88n) that burns.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, air injection (28a) at the optimum location for suction injection flow as well as multiple theoretical combustion chambers (4Q) combustion injection + two-side center support bearing combined load 0 approach Various energy storage cycle coalescing engine and coalescence method in the form of a simple water injection engine (88n) that burns counter-rotating manufactured compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K), making it a simple water injection engine (88n), forward air inlet + both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) and burning various energy storage cycles Merger engine and merger method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, making it a simple water injection engine (88n), forward air inlet + both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) Storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, make it a simple water injection engine (88n), forward the air inlet + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) combustion Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K), make it a simple water injection engine (88n), forward air inlet + both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) and approaching a straight line Various energy storage cycle coalescence engine and coalescence method for jetting bubbles to the bottom of the ship.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity, make it a simple water injection engine (88n), forward the air inlet + both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) burning straight Various energy storage cycle coalescing engine and coalescence method for injecting the maximum amount of bubbles to the bottom of the ship.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, make it a simple water injection engine (88n), forward the air inlet + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) combustion Then, various energy storage cycle coalescing engines and coalescing methods in which bubbles are maximally injected to the bottom of the ship close to a straight line.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + hot water, making it a simple water injection engine (88n), burning the air inlet forward + both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescing engine and coalescence method for approaching a straight line and injecting the maximum amount of bubbles to the ship bottom.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K), high-pressure high-temperature combustion gas (5M) injection accelerated injection with multiple theoretical combustion chambers (4Q) + both-side center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescing engine and coalescence method for a simple combustion engine (88o) for combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Received cheaper liquid oxygen (5K) + electricity, high-pressure high-temperature combustion gas (5M) injection accelerated injection with multiple theoretical combustion chambers (4Q) + double-side center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescing engines and coalescing methods made into a simple combustion engine (88o) for combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, high pressure high temperature combustion gas (5M) injection accelerating injection with multiple theoretical combustion chambers (4Q) + double-sided center support bearing load coalescence 0 approaching double reversal manufacturing Compressed air (28a) combustion simple injection engine (88o) and various energy storage cycle merging engines and merging methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K), use high pressure high temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) inner wall oxygen + fuel + superheated steam heated at optimal temperature + both sides Center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Various energy storage cycle coalescence engine and coalescence method in a simple injection engine (88o) to burn.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity, and use high pressure and high temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) oxygen + fuel + superheated steam on the inner wall and use at optimum temperature + Both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) Various energy storage cycle coalescence engine and coalescence method made into simple injection engine (88o) to burn.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, and heat 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) Used + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) various energy storage cycle coalescing engine and coalescence method to burn simple injection engine (88o).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Received less expensive liquid oxygen (5K), theoretically heated (4Q) oxygen + fuel + superheated steam on the inner wall with high pressure and high temperature combustion gas (5M) equipped with two types of theoretical combustion chambers (4Q). Various energy storage cycle coalescing engine and coalescence method in a simple injection engine (88o) for combustion chamber (4Q) combustion + both center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives cheaper liquid oxygen (5K) + electricity, and heats (4Q) inner wall oxygen + fuel + superheated steam at the optimum temperature with high-pressure high-temperature combustion gas (5M) equipped with two types of theoretical combustion chambers (4Q). Various energy storage cycle coalescing engine and coalescence method, which is a simple injection engine (88o) which makes the combustion of theoretical combustion chamber (4Q) combustion + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, and optimize the (4Q) inner wall oxygen + fuel + superheated steam with high pressure and high temperature combustion gas (5M) equipped with two kinds of theoretical combustion chambers (4Q) Various energy storage cycle coalescing engines and coalescence methods that are heated to a theoretical combustion chamber (4Q) combustion + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion into a simple injection engine (88o).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + high temperature water, high pressure high temperature combustion gas (5M) with multiple theoretical combustion chambers (4Q) (4Q) oxygen on the inner wall + fuel + superheated steam containing received high temperature water Various energy storage cycle coalescence engine and coalescence method with simple injection engine (88o) for optimum temperature heating and theoretical combustion chamber (4Q) combustion + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion .   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K), heat oxygen + fuel + superheated steam at the inner wall at the optimum temperature, theoretical combustion chamber (4Q) combustion + both sides center support bearing load coalescence 0 approach counter-rotating manufactured compressed air (28a ) Various energy storage cycle coalescing engine and coalescence method in a simple combustion engine (88o).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Cheaper liquid oxygen (5K) + electricity is received, oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall, theoretical combustion chamber (4Q) combustion + both-side center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) Various energy storage cycle coalescing engines and coalescence methods which are made into a simple combustion engine (88o) for combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, heat oxygen + fuel + superheated steam on the inner wall at the optimum temperature, theoretical combustion chamber (4Q) combustion + both side center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engines and coalescence methods that are made into a simple injection engine (88o) for production compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K), heat oxygen + fuel + superheated steam on the inner wall at the optimum temperature and burn the theoretical combustion chamber (4Q) + both sides center support bearing load coalescence 0 approaching counter-rotating manufactured compressed air ( 28a) Various energy storage cycle coalescing engines and coalescing methods made into a simple combustion engine (88o) for combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Lower cost liquid oxygen (5K) + electricity is received, oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall, and the theoretical combustion chamber (4Q) is combusted. Various energy storage cycle coalescing engine and coalescence method in a simple injection engine (88o) for air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + electricity + hot water, and heat oxygen + fuel + superheated steam on the inner wall at the optimum temperature to burn the theoretical combustion chamber (4Q) + double-sided center support bearing load coalescence 0 approach double Various energy storage cycle coalescing engine and coalescence method in a simple injection engine (88o) for reversal production compressed air (28a) combustion.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receives cheaper liquid oxygen (5K), heats the oxygen + fuel + superheated steam at the optimum 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 + Both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) Various energy storage cycle coalescence engine and coalescence method made into simple injection engine (88o) to burn.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, heating oxygen + fuel + superheated steam on the inner wall at the optimum temperature, and heating the superheated steam (50) in the high-temperature water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion Heat injection + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) various energy storage cycle coalescing engine and coalescence method for burning simple injection engine (88o).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water and heating oxygen + fuel + superheated steam at the optimum temperature and heating the superheated steam (50) in the hot water heating pipe (5H) in the theoretical combustion chamber (4Q) combustion Heat injection + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) various energy storage cycle coalescing engine and coalescence method for burning simple injection engine (88o).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receive cheaper liquid oxygen (5K) + hot water, heat oxygen + fuel + superheated steam at the inner wall at the optimum temperature, and receive superheated steam 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 the superheated steam (50) is a simple injection engine (88o) that burns by heating injection + both center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K), the air (28a) suction injection flow at the optimal location is also equipped with multiple theoretical combustion chamber (4Q) injection parts as well as combustion injection + both-side center support bearing load coalescence 0 approach double reversal Manufacturing compressed air (28a) Various energy storage cycle coalescing engine and coalescence method in a simple injection engine (88o) that burns.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity, the air (28a) suction injection flow at the optimal location is also equipped with a plurality of theoretical combustion chamber (4Q) injection parts as well as combustion injection + both-side center support bearing load merge 0 approach 2 Various energy storage cycle coalescing engine and coalescing method with a simple injection engine (88o) that burns heavy inversion manufactured compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + electricity + hot water, the air (28a) suction injection flow at the optimum location also with multiple theoretical combustion chamber (4Q) injection parts as well as combustion injection + both sides center support bearing load coalescence Various energy storage cycle coalescing engines and coalescing methods in a simple injection engine (88o) that burns zero-closed counter-rotating manufactured compressed air (28a).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) burns and rotates together with simple injection engine (88o) to enable vertical ascent and descent Storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Cheaper liquid oxygen (5K) + electricity received + both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) burned and rotated with simple injection engine (88o) to allow vertical ascent and descent Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Cheaper liquid oxygen (5K) + Electricity + High temperature water received + Both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) burns and rotates with simple injection engine (88o) to cause vertical rise and fall Various energy storage cycle coalescence engines and coalescence methods made possible.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Receiving cheaper liquid oxygen (5K) + both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) burns and rotates together with simple injection engine (88o) to enable various types of energy storage Cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Cheaper liquid oxygen (5K) + receiving electricity + both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) burned and rotated with simple injection engine (88o) to enable reverse injection Energy conservation cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Cheaper liquid oxygen (5K) + electricity + hot water received + both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) burns and rotates with simple injection engine (88o) to allow reverse injection Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Received cheaper liquid oxygen (5K) + hot water + both sides center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) burned and rotated with simple injection engine (88o) to enable reverse injection Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + high-temperature water (52b) supplied as liquid oxygen production, easy aiming to maximize suction speed, both sides center support bearing load combination of electric drive 0 approach simple multistage compressor (3h) + liquid oxygen production machine (88l) Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity supply as a liquid oxygen production, easy aiming to maximize the suction speed Electric drive both sides center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) various energy storage cycle coalescence engine And coalescing method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated steam supplied as liquid oxygen production, easy aiming to maximize the suction speed Electric drive both sides center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) Cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + hot water (52b) supplied as liquid oxygen production, easy aiming to maximize suction speed, both sides center support bearing load combined with electric drive 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) as liquid Various energy storage cycle coalescence engine and coalescence method for producing oxygen.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity supply as a liquid oxygen production, easy aiming to maximize the suction speed, both sides of the electric drive center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) as a liquid oxygen production various energy storage Cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated Steam Supply as Liquid Oxygen Production, Easy Aiming to Maximize Inhalation Speed, Electric Drive Both Sides Center Support Bearing Load Combined 0 Approach Easy Multistage Compressor (3h) + Liquid Oxygen Production Machine (88l) Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + high temperature water (52b) supplied as liquid oxygen production, easy aiming to maximize suction speed, both sides center support bearing load combined with electric drive 0 approach simple multistage compressor (3h) + liquid oxygen production machine (88l) as air Various energy storage cycle coalescence engine and coalescence method for producing suction compression heat exchange superheated steam.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Supplying electricity as liquid oxygen production, easy aiming to maximize the suction speed Electric both sides center support bearing load coalescence 0 approach simple multi-stage compressor (3h) + liquid oxygen production machine (88l) Various energy storage cycle coalescence engine and coalescence method for producing steam.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated steam supply as liquid oxygen production, easy aiming to maximize suction speed, both sides of electric drive center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) as suction compression Various energy storage cycle coalescence engine and coalescence method for producing heat exchange superheated steam.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electric + high temperature water (52b) + superheated steam supply liquid oxygen production, easy aiming to maximize suction speed, both sides center support bearing load coalescence of the electric drive 0 approach simple multistage compressor (3h) + liquid oxygen production machine (88l ) Various energy storage cycle coalescence engine and coalescence method for producing compressed heat exchange superheated steam by sucking air.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + hot water (52b) supplied as liquid oxygen production, easy aiming to maximize suction speed, both sides center support bearing load combined with electric drive 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) as liquid Various energy storage cycle coalescence engines and coalescence methods for producing nitrogen.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity supply as a liquid oxygen production, easy aiming to maximize the suction speed Electric drive both sides center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) as various energy to produce liquid nitrogen Storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated steam supplied as liquid oxygen production, easy aiming to maximize suction speed, both sides of electric drive center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) produce liquid nitrogen Various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + hot water (52b) supplied as liquid oxygen production, easy aiming to maximize suction speed, both sides center support bearing load combined with electric drive 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) as liquid Various energy storage cycle coalescence engines and coalescence methods for supplying nitrogen to the production supply facility (3D).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity supply as liquid oxygen production, easy aiming to maximize the suction speed Electric drive both sides center support bearing load coalescence 0 approach simple multistage compressor (3h) + liquid oxygen production machine (88l) production and supply equipment of liquid nitrogen ( 3D) various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated steam supplied as liquid oxygen production, easy aiming to maximize suction speed, both sides of electric drive center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) produce liquid nitrogen Various energy storage cycle coalescence engines and coalescence methods to be supplied to a supply facility (3D).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + hot water (52b) supplied as liquid oxygen production, easy aiming to maximize suction speed, both sides center support bearing load combined with electric drive 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) as liquid Various energy storage cycle coalescence engines and coalescence methods for supplying nitrogen + liquid oxygen + superheated steam to manufacturing and supply equipment (3D).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Supplying electricity as liquid oxygen production, easy aiming to maximize suction speed, both sides center support bearing load combination of electric drive 0 approach simple multistage compressor (3h) + liquid oxygen production machine (88l) 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).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electricity + Superheated steam supply as liquid oxygen production, easy aiming to maximize suction speed, both sides of electric drive center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) as liquid nitrogen + liquid Various energy storage cycle coalescence engine and coalescence method for supplying oxygen + superheated steam to the production supply facility (3D).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Electric + high temperature water (52b) + superheated steam supply liquid oxygen production, easy aiming to maximize suction speed, both sides center support bearing load coalescence of the electric drive 0 approach simple multistage compressor (3h) + liquid oxygen production machine (88l ) Various energy storage cycle coalescence engines and coalescence methods for supplying liquid nitrogen + liquid oxygen + superheated steam to the production supply facility (3D).   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods configured to simplify the oxygen production machine (88l) and maximize the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for compressing air as a configuration that maximizes the suction speed by simplifying the oxygen production machine (88l).   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for compressing air (28a) as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescing engines and coalescence methods for compressing one to a plurality of stages as a configuration that maximizes the suction speed by simplifying the oxygen production machine (88l).   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for heating one to several stages of compressed water as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for heating one to several stages of compressed high-temperature water as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for heating one to multiple-stage compressed superheated steam as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for heating water by one or more stages of compression and compression as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for heating high-temperature water by 1 to multi-stage compression and compression as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for heating superheated steam by 1 to multi-stage compression and compression as a configuration that maximizes the suction speed by simplifying the oxygen production machine (88l).   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for producing superheated steam by compression as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for producing compressed air + superheated steam by compression as a configuration that maximizes the suction speed by simplifying the oxygen production machine (88l).   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for producing high-pressure compressed air + high-pressure superheated steam by compression as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for producing ultra-high pressure compressed air + ultra-high pressure superheated steam by compression as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods that supply the compressed air + superheated steam production and supply facility (3D) by compression as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for supplying oxygen to a high pressure compressed air + high pressure superheated steam production and supply facility (3D) as a configuration that maximizes the suction speed by simplifying the oxygen production machine (88l).   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for supplying oxygen to an ultrahigh pressure compressed air + ultrahigh pressure superheated steam production / supply facility (3D) as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods that supply the compressed air and super high pressure superheated steam production and supply equipment (3D) as a configuration that maximizes the suction speed by simplifying the oxygen production machine (88l).   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engine and coalescence method for supplying oxygen to liquid oxygen + liquid nitrogen + super high pressure superheated steam production and supply equipment (3D) by compression as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential speed hydrodynamic turbine (8V) Extremely inexpensive power generation electric drive, both sides center support bearing combined load 0 approach simple multistage compressor (3h) + liquid Various energy storage cycle coalescence engines and coalescence methods for supplying oxygen + liquid oxygen + liquid nitrogen + ultrahigh pressure superheated steam production and supply equipment (3D) by compression as a configuration that simplifies the oxygen production machine (88l) and maximizes the suction speed.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More various energy storage cycle coalescence engines and coalescence methods, in which low-cost liquid oxygen (5K) is supplied to a simple gas engine (88m) on both sides center support bearing load coalescence (88m), and fuel injection combustion is performed on compressed air.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More various energy storage cycle coalescence engines and coalescence methods, in which low-priced liquid oxygen (5K) is received into a two-way center support bearing load coalescence zero approach simple injection engine (88o), and fuel injection combustion into compressed air and fuel injection combustion into compressed air.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More energy storage cycle coalescence engine with two types of theoretical combustion chambers: low-cost liquid oxygen (5K) received to the water injection engine (88n) on both sides center support bearing load coalescence (88n), fuel injection combustion + fuel injection combustion to compressed air Merge method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) More energy saving cycle coalescence with two types of theoretical combustion chambers (4Q) receiving low-priced liquid oxygen (5K) in a gas engine (88m) with both sides center support bearing load coalescence and receiving fuel injection combustion + compressed air into fuel injection combustion Organization and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Two-sided center support bearing load uniting 0 approaching simple injection engine (88o) receiving cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) and one type of inlet valve (1Q) Various energy storage cycle coalescence engines and coalescence methods provided.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load combined 0 approach simple water injection engine (88n) received low-priced liquid oxygen (5K) received fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) and opened and closed at one type inlet Various energy storage cycle coalescence engine and coalescence method comprising a valve (1Q) oxygen injection nozzle (6L).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approaching simple gas engine (88m) receiving cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into 2 types of theoretical combustion chamber (4Q) and 1 type of opening and closing valve (1Q) Various energy storage cycle coalescence engines and coalescence methods provided with an oxygen injection nozzle (6L) and a fuel injection nozzle (6X).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Two-sided center support bearing load uniting 0 approaching simple injection engine (88o) receiving cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) and one type of inlet valve (1Q) Oxygen injection nozzle (6L) Fuel injection nozzle (6X) Equipped with on-off valve (1Q) Various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load combined 0 approach simple water injection engine (88n) received low-priced liquid oxygen (5K) received fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) and opened and closed at one type inlet Valve (1Q) Oxygen injection nozzle (6L) Fuel injection nozzle (6X) Equipped with on-off valve (1Q) Closed oxygen fuel injection Combustion engine and combination method for various energy storage cycles.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approaching simple gas engine (88m) receiving cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into 2 types of theoretical combustion chamber (4Q) and 1 type of opening and closing valve (1Q) Oxygen injection nozzle (6L) Fuel injection nozzle (6X) Equipped with on-off valve (1Q) Closed oxygen fuel injection Combustion rotation output increases various engine and engine combining methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Two-sided center support bearing load uniting 0 approaching simple injection engine (88o) receiving cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) and one type of 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) Various energy storage cycle coalescence engine and coalescence method .   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load combined 0 approach simple water injection engine (88n) received low-priced liquid oxygen (5K) received fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) and opened and closed at one 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 and combustion gas (49) suction injection Various energy storage cycle coalescence engine and coalescence method.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approaching simple gas engine (88m) receiving cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into 2 types of theoretical combustion chamber (4Q) and 1 type of opening and closing valve (1Q) Oxygen injection nozzle (6L) Fuel injection nozzle (6X) Equipped with open / close valve (1Q) Closed oxygen fuel injection Combustion rotation output increase 2 types (4Q) Superheated steam (50) injection and suction injection injection of combustion gas (49) Various energy storage cycle coalescence engines and coalescence methods that increase propulsion output.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approach Easy injection engine (88o) receives cheap liquid oxygen (5K) Fuel injection combustion + Compressed air fuel injection combustion 2 types of theoretical combustion chamber (4Q) open and close 1 type inlet and outlet Various energy storage cycle coalescence engines and coalescence methods comprising a valve (1Q), an oxygen injection nozzle (6L), and a fuel injection nozzle (6X).   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approaching simple gas engine (88m) receiving cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q), opening and closing at one type inlet and outlet Valves (1Q), oxygen injection nozzles (6L), fuel injection nozzles (6X), on-off valves (1Q), various energy storage cycle coalescing engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approach Easy injection engine (88o) receives cheap liquid oxygen (5K) Fuel injection combustion + Compressed air fuel injection combustion 2 types of theoretical combustion chamber (4Q) open and close 1 type inlet and outlet Valve (1Q) Oxygen injection nozzle (6L) Fuel injection nozzle (6X) Equipped with on-off valve (1Q) Closed oxygen fuel injection Combustion engine and combination method for various energy storage cycles.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approach simple water injection engine (88n) receive cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) and one type at the inlet and outlet Open / close 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.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approaching simple gas engine (88m) receiving cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q), opening and closing at one type inlet and 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) Various energy storage cycle coalescence engines and coalescence methods for injection.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approach Easy injection engine (88o) receives cheap liquid oxygen (5K) Fuel injection combustion + Compressed air fuel injection combustion 2 types of theoretical combustion chamber (4Q) open and close 1 type inlet and 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 ) Various energy conservation cycle coalescing engine and coalescence method that increase rocket injection injection propulsion output.   Vertically moving blade water gravity turbine (8V) with magnetic utilization bearing load approaching 0 + super high speed circumferential speed Electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D) Both sides center support bearing load coalescence 0 approach simple water injection engine (88n) receive cheap liquid oxygen (5K) fuel injection combustion + compressed air fuel injection combustion into two types of theoretical combustion chamber (4Q) and one type at the inlet and outlet On-off valve (1Q) Oxygen injection nozzle (6L) Fuel injection nozzle (6X) On-off 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) Various energy storage cycle coalescing engines and coalescence methods that increase rocket-injected water in front and sucking-injection propulsion output.   Vertically moving blade water gravity turbine (8V) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jets in vacuum under ultra high pressure vertically and accelerated by gravitational acceleration, inner blade (60c) and outer blade ( 60d) as a turbine utilizing magnetic force to double-reverse, various types of energy to generate electric drive solar heater for power generation (21) + both center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) Storage cycle coalescence engine and coalescence method.   Vertically moving blade hydrogravity turbine (8V) with magnetic bearing load approaching 0 and ultra-high speed circumferential speed Water sprayed vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration to accelerate multiple inner rotor blades (60c) and outer rotor blades As a turbine using magnetic force to reverse the blades (60d), an electric drive solar heater for power generation (21) + both-side center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade hydrogravity turbine (8V) with magnetic bearing load approaching 0 and ultra-high speed circumferential speed Water sprayed vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration to accelerate multiple inner rotor blades (60c) and outer rotor blades Electricity-driven solar heater for power generation (21) + double-sided center support bearing load coalescence 0 approach easy multistage compressor (3h) + liquid oxygen production machine (88l) Various energy storage cycle coalescence engines and coalescence methods.   Vertically moving blade water gravity turbine (8V) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jets in vacuum under ultra high pressure vertically and accelerated by gravitational acceleration, inner blade (60c) and outer blade ( 60d) as a turbine utilizing magnetic force that is double-reversed by a double-reversing magnetic device (85), an electric drive solar heater for power generation (21) + both-side center support bearing load coalescence 0 approach simple multistage compressor (3h) + liquid oxygen Various energy storage cycle coalescing engine and coalescence method for manufacturing machine (88l).   Vertically moving blade hydrogravity turbine (8V) with magnetic bearing load approaching 0 and ultra-high speed circumferential speed Water sprayed vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration to accelerate multiple inner rotor blades (60c) and outer rotor blades Electricity-driven solar heater (21) for power generation as a turbine utilizing magnetic force that reverses the blade (60d) by a counter-rotating magnetic device (85) + both-side center support bearing load coalescence 0 approach simple multistage compressor (3h) + Various energy storage cycle coalescence engine and coalescence method to make liquid oxygen production machine (88l).   Vertically moving blade hydrogravity turbine (8V) with magnetic bearing load approaching 0 and ultra-high speed circumferential speed Water sprayed vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration to accelerate multiple inner rotor blades (60c) and outer rotor blades Use of magnetic force to reverse the blades (60d) with a double reversal magnetic device (85) Electricity-driven solar heater (21) for power generation as a large number of turbines + both-side center support bearing load combined 0 approach simple multistage compressor (3h) ) + Energy storage cycle coalescence engine and coalescence method to make liquid oxygen production machine (88l).   Vertically moving blade water gravity turbine (8V) with magnetic bearing load approaching 0 + super high speed circumferential speed Water jets in vacuum under ultra high pressure vertically and accelerated by gravitational acceleration, inner blade (60c) and outer blade ( 60d) Double-reversed magnetic device (85) is a double-reversed magnetic device (85) that uses a power-supported, magnetically-powered turbine to generate electricity. + Various energy storage cycle coalescence engine and coalescence method for liquid oxygen production machine (88 l).   Vertically moving blade hydrogravity turbine (8V) with magnetic bearing load approaching 0 and ultra-high speed circumferential speed Water sprayed vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration to accelerate multiple inner rotor blades (60c) and outer rotor blades Electricity-driven solar heater (21) for power generation as a turbine using weight-supported magnetic force that reverses the blade (60d) by a counter-rotating magnetic device (85) + double-side center support bearing load coalescence 0 approach simple multistage compressor ( 3h) Various energy storage cycle coalescing engine and coalescence method to make + oxygen generator (88l).   Vertically moving blade hydrogravity turbine (8V) with magnetic bearing load approaching 0 and ultra-high speed circumferential speed Water sprayed vertically under ultra-high pressure in vacuum and accelerated by gravitational acceleration to accelerate multiple inner rotor blades (60c) and outer rotor blades Electricity-driven solar heater (21) + double-sided center support bearing combined load 0 approach easy multi-stage compression using multiple magnetic force such as weight support that reverses the wing (60d) with a double reversal magnetic device (85) Various energy storage cycle coalescence engine and coalescence method to make machine (3h) + liquid oxygen production machine (88l).   Magnetically utilized bearing load 0 approach + super high speed circumferential water speed vertical blade hydrogravity turbine (8V) power generation electric product + rocket combustion + jet combustion both sides center support bearing load coalescence 0 approach simple water injection engine (88n ) Various energy storage cycle coalescence engines and coalescence methods that are driven equally.   Magnetically-enhanced bearing load close to 0 + super high speed circumferential water speed vertical blade hydrogravity turbine (8V) power generation electric product + rocket combustion 2 locations + jet combustion 2 locations on both sides center support bearing combined 0 approach simple water Various energy storage cycle coalescence engines and coalescence methods for driving an injection engine (88n) and the like.   Magnetically utilized bearing load 0 approach + super-high speed circumferential water speed vertical blade hydrogravity turbine (8V) power generation electrical product + rocket combustion 3 places + jet combustion 3 places on both sides center support bearing combined 0 approach simple water Various energy storage cycle coalescence engines and coalescence methods for driving an injection engine (88n) and the like.   Magnetically utilized bearing load approaching 0 + super high speed circumferential water speed vertical blade hydrogravity turbine (8V) power generation electric product + rocket combustion 4 locations + jet combustion 4 locations on both sides center support bearing combined 0 approach simple water Various energy storage cycle coalescence engines and coalescence methods for driving an injection engine (88n) and the like.   Magnetically utilized bearing load approaching 0 + super high speed circumferential water speed vertical blade hydrogravity turbine (8V) power generation electrical product + 5 rocket combustion + 5 jet combustion on both sides center support bearing combined 0 approach simple water Various energy storage cycle coalescence engines and coalescence methods for driving an injection engine (88n) and the like.   Magnetically utilized bearing load 0 approach + super high speed circumferential water speed vertical blade hydrogravity turbine (8V) power generation electrical product + rocket combustion 6 places + jet combustion 6 places on both sides center support bearing load combined 0 approach simple water Various energy storage cycle coalescence engines and coalescence methods for driving an injection engine (88n) and the like.   Magnetically-enhanced bearing load 0 approach + super-high-speed circumferential speed hydrodynamic turbine (8V) power generation electric product + rocket combustion + jet combustion both side center support bearing combined 0 approach simple injection engine (88o) Various energy storage cycle coalescence engines and coalescence methods to be driven.   Magnetically-enhanced bearing load approaching zero + super-high speed peripheral speed hydro-gravity turbine (8V) power generation electric product + rocket combustion 2 places + jet combustion 2 places as both side center support bearings combined 0 approach simple injection Various energy storage cycle coalescing engine and coalescence method for driving the engine (88o).   Magnetically utilized bearing load approaching 0 + super high speed circumferential speed hydrodynamic turbine (8V) power generation electric product + rocket combustion 3 locations + jet combustion 3 locations on both sides center support bearings combined 0 approach simple injection Engine (88o) Various energy storage cycle coalescence engine and coalescence method to drive.   Magnetically-enhanced bearing load 0 approach + super-high speed circumferential speed hydrodynamic turbine (8V) power generation electric product + rocket combustion 4 places + jet combustion 4 places on both sides center support bearing load merge 0 approach simple injection Engine (88o) Various energy storage cycle coalescence engine and coalescence method to drive.   Magnetically-enhanced bearing load approaching 0 + super-high speed circumferential water speed vertical blade hydrogravity turbine (8V) power generation electrical product + rocket combustion 5 places + jet combustion 5 places on both sides center support bearings combined 0 approach simple injection Engine (88o) Various energy storage cycle coalescence engine and coalescence method to drive.   Magnetically-enhanced bearing load 0 approach + super high speed circumferential gravity speed vertical blade hydrogravity turbine (8V) power generation electrical product + rocket combustion 6 places + jet combustion 6 places on both sides center support bearing combined 0 approach simple injection Engine (88o) Various energy storage cycle coalescence engine and coalescence method to drive.   Vertical type moving blade water gravity turbine (8V) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-cost power generation electric manufacture, both side center support bearing Various energy storage cycle coalescence engines and coalescence methods, in which a load coalescence 0 approaching simple water injection engine (88n), etc., drives a simple water injection engine such as a ship (7u) and injects the maximum amount of bubbles into the bottom vertical parallel plate (9Q).   Vertical type moving blade water gravity turbine (8V) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-cost power generation electric manufacture, both side center support bearing Various energy storage cycle coalescence engines and coalescence methods that make a load coalescence 0 approach simple water injection engine (88n) or the like driven screw injection ship and inject maximum bubbles into the bottom vertical parallel plate (9Q).   Vertical type moving blade water gravity turbine (8V) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-cost power generation electric manufacture, both side center support bearing Various energy conservation cycle coalescence engines and coalescence methods that maximize the air flotation by providing a load coalescence 0 approach simple water injection engine (88n) and other driving simple water injection engine ship (7u) with a wide vertical bottom plate (9Q).   Vertical type moving blade water gravity turbine (8V) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-cost power generation electric manufacture, both side center support bearing Various energy storage cycle coalescence engines and coalescence methods that make the load coalescence 0 approach simple water injection engine (88n), etc. drive screw injection ship, and have a wide bottom bottom parallel plate (9Q) to maximize the air floating amount.   Vertical type moving blade water gravity turbine (8V) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-cost power generation electric manufacture, both side center support bearing Various energy storage cycle coalescence engines and coalescence methods that maximize the friction reduction amount by making the load coalescence 0 approach simple water injection engine (88n) and other driving simple water injection engine ship (7u) wide in the bottom vertical parallel plate (9Q).   Vertical type moving blade water gravity turbine (8V) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + hot water to superheated steam heat supply equipment (3D), extremely low-cost power generation electric manufacture, both side center support bearing Various energy conservation cycle coalescence engines and coalescence methods that make the load coalescence 0 approach simple water injection engine (88n), etc. driven screw injection ship wide and have a bottom vertical parallel plate (9Q) wide to maximize friction reduction.   Theoretical combustion blade water gravity turbine (8V) power generation and electricity production, receiving theoretical oxygen (5K) and making the compression volume 21/60000 of the air compression theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion injection propulsion + Both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion simple injection engine (88o) rotary blade injection airplane (7x) various energy storage cycle coalescence engine and coalescence method.   Received liquid oxygen (5K) + electricity from vertical all blade hydrogravity turbine (8V) power generation electricity production, theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion injection propulsion + both sides center support bearing load coalescence approach 0 Various energy storage cycle coalescence engine and coalescence method to make a simple injection engine (88o) rotary blade injection airplane (7x) with counter-rotating manufactured compressed air (28a) combustion.   Vertical full-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion injection propulsion + both sides center support bearing load Combined zero approaching counter-rotating manufactured compressed air (28a) combustion simple engine (88o) rotary blade injection plane (7x) various energy storage cycle coalescing engine and coalescence method.   A plurality of vertical combustion blade hydrogravity turbine (8V) generators and electric generators that receive liquid oxygen (5K) and have a compression volume of 21/60000 of air compression. Super high-pressure fuel combustion injection propulsion + Both-side center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion simple injection engine (88o) Rotary blade injection plane (7x) Various energy conservation cycle coalescence engine and coalescence Method.   Multi-high pressure fuel combustion injection propulsion including a theoretical combustion chamber (4Q) air suction channel that receives liquid oxygen (5K) + electricity and is manufactured by vertical all blade hydrogravity turbine (8V) power generation electricity production center + both sides Various energy storage cycle coalescence engines and coalescence methods to make a simple injection engine (88o) rotary blade injection airplane (7x) with support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion.   Multi-high pressure fuel combustion injection propulsion that receives liquid oxygen (5K) + electricity + high-temperature water and is equipped with a theoretical combustion chamber (4Q) air suction channel, which is a vertical all blade water gravity turbine (8V) generator + Both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion simple injection engine (88o) rotary blade injection airplane (7x) various energy storage cycle coalescence engine and coalescence method.   A plurality of vertical combustion blade hydrogravity turbine (8V) generators and electric generators that receive liquid oxygen (5K) and have a compression volume of 21/60000 of air compression. Super high-pressure fuel combustion injection propulsion + both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion simple injection engine (88o) rotary blade injection plane (7x) various energy storage cycle coalescence engine and coalescence Method.   Multi-high pressure fuel combustion injection propulsion including a theoretical combustion chamber (4Q) air suction channel that receives liquid oxygen (5K) + electricity and is manufactured by vertical all blade hydrogravity turbine (8V) power generation electricity production center + both sides Various energy storage cycle coalescence engines and coalescence methods driven by a simple injection engine (88o) rotary blade injection airplane (7x) with support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion.   Multi-high pressure fuel combustion injection propulsion that receives liquid oxygen (5K) + electricity + high-temperature water and is equipped with a theoretical combustion chamber (4Q) air suction channel, which is a vertical all blade water gravity turbine (8V) generator + Both-side center support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion simple injection engine (88o) rotary blade injection plane (7x) driven various energy storage cycle coalescence engine and coalescence method.   Theoretical combustion blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression multiple theoretical combustion chambers (4Q) + both sides center support bearing load Combined zero approaching counter-rotating manufactured compressed air (28a) combustion simple engine (88o) rotary blade injection plane (7x) driven various energy storage cycle coalescing engine and coalescence method.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) rotor blade airplane (7w) as compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engine and coalescence method for driving a simple gas engine (88m) rotor blade airplane (7w) as combustion with compressed air (28a) manufactured.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) rotor blade airplane (7w) as a counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for driving a rotary wing airplane (7w) by driving a plurality of simple gas engines (88m) 1 as combusted compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescence engines and coalescence methods for driving a compressed air (28a) combustion with a simple gas engine (88m) 1 to a plurality of rotary wing airplanes (7w).   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method for driving a rotating blade airplane (7w) by driving one or more simple gas engines (88m) as a counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for driving a rotary wing airplane (7w) by driving a plurality of simple gas engines (88m) 1 as combusted compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescence engines and coalescence methods for driving a compressed air (28a) combustion with a simple gas engine (88m) 1 to a plurality of rotary wing airplanes (7w).   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method for driving a rotating blade airplane (7w) by driving one or more simple gas engines (88m) as a counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescing engine and coalescence method for driving a simple gas engine (88m) and driving a rotary wing airplane (7w) as combustion in compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for rotating a simple gas engine (88m) driving rotor blade (7B) and driving a rotor blade airplane (7w) as combustion of compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescence engine and coalescence method for rotating a simple gas engine (88m) driving rotor blade (7B) and driving a rotor blade airplane (7w) as a compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engines and coalescence methods for rotating a simple gas engine (88m) driven rotor blade (7B) and driving a rotor blade airplane (7w) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion with simple gas engine (88m) 1-Multi-drive rotor blade (7B) Multiple energy storage cycle coalescence engine driven by multiple rotation rotor blade airplane (7w) And coalescing method.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescence engine and coalescence method for driving a rotary airfoil (7w) by rotating a simple gas engine (88m) 1 to a multi-drive rotor blade (7B) as a production compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engines and coalescence methods for driving a rotating blade airplane (7w) by rotating a simple gas engine (88m) 1 to a plurality of driving rotor blades (7B) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion with simple gas engine (88m) 1-Multi-drive rotor blade (7B) Multiple energy storage cycle coalescence engine driven by multiple rotation rotor blade airplane (7w) And coalescing method.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescence engine and coalescence method for driving a rotary airfoil (7w) by rotating a simple gas engine (88m) 1 to a multi-drive rotor blade (7B) as a production compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engines and coalescence methods for driving a rotating blade airplane (7w) by rotating a simple gas engine (88m) 1 to a plurality of driving rotor blades (7B) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for rotating a simple gas engine (88m) driving rotor blade (7B) and driving a rotor blade airplane (7w) as combustion of compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) drive as a compressed air (28a) combustion as a support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescence engine and coalescence method for driving simple gas engine (88m) driving simple injection engine (88o) as production compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) driving simple injection engine (88o) as a counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) 1 to a plurality of drives 1 to a plurality of simple injection engines (88o) as combustion in a support bearing load coalescence 0 approaching counter-rotating production compressed air (28a).   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engine and coalescence method for driving a simple gas engine (88m) 1 to a plurality of drives 1 to a plurality of simple injection engines (88o) as production compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) 1 to multiple drives 1 to multiple simple injection engines (88o) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) 1 to a plurality of drives 1 to a plurality of simple injection engines (88o) as combustion in a support bearing load coalescence 0 approaching counter-rotating production compressed air (28a).   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engine and coalescence method for driving a simple gas engine (88m) 1 to a plurality of drives 1 to a plurality of simple injection engines (88o) as production compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engines and coalescence methods for driving a simple gas engine (88m) 1 to multiple drives 1 to multiple simple injection engines (88o) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Simple gas engine (88m) drive Simple injection engine (88o) Various energy storage cycle coalescence engine and coalescence method for multiple driving.   Theoretical combustion blade water gravity turbine (8V) power generation and electricity production, receiving theoretical oxygen (5K) and making the compression volume 21/60000 of the air compression theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion injection propulsion + Both-side center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion simple engine (88o) Oversized osprey (7y) Various energy storage cycle coalescence engine and coalescence method.   Received liquid oxygen (5K) + electricity from vertical all blade hydrogravity turbine (8V) power generation electricity production, theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion injection propulsion + both sides center support bearing load coalescence approach 0 Various energy storage cycle coalescing engine and coalescence method to make simple injection engine (88o) oversized osprey (7y) with counter-rotating manufactured compressed air (28a) combustion.   Vertical full-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity + high temperature water, theoretical combustion chamber (4Q) multiple ultra high pressure fuel combustion injection propulsion + both sides center support bearing load Combined zero approaching counter-rotating production Compressed air (28a) Combustion simple injection engine (88o) Oversized Osprey (7y) Various energy storage cycle coalescing engine and coalescence method.   A plurality of vertical combustion blade hydrogravity turbine (8V) generators and electric generators that receive liquid oxygen (5K) and have a compression volume of 21/60000 of air compression. Super high-pressure fuel combustion injection propulsion + Both-side center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion simple engine (88o) Oversized osprey (7y) Various energy storage cycle coalescence engines and coalescence methods.   Multi-high pressure fuel combustion injection propulsion including a theoretical combustion chamber (4Q) air suction channel that receives liquid oxygen (5K) + electricity and is manufactured by vertical all blade hydrogravity turbine (8V) power generation electricity production center + both sides Various types of energy storage cycle coalescence engine and coalescence method to make a simple injection engine (88o) oversized osprey (7y) with support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion.   Multi-high pressure fuel combustion injection propulsion that receives liquid oxygen (5K) + electricity + high-temperature water and is equipped with a theoretical combustion chamber (4Q) air suction channel, which is a vertical all blade water gravity turbine (8V) generator + Both-side center support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion simple engine (88o) Oversized osprey (7y) Various energy storage cycle coalescence engine and coalescence method.   A plurality of vertical combustion blade hydrogravity turbine (8V) generators and electric generators that receive liquid oxygen (5K) and have a compression volume of 21/60000 of air compression. Super high-pressure fuel combustion injection propulsion + both center support bearing load coalescence 0 approach double reversal production compressed air (28a) combustion simple injection engine (88o) extra large Osprey (7y) driven various energy storage cycle coalescence engine and coalescence method.   Multi-high pressure fuel combustion injection propulsion including a theoretical combustion chamber (4Q) air suction channel that receives liquid oxygen (5K) + electricity and is manufactured by vertical all blade hydrogravity turbine (8V) power generation electricity production center + both sides A simple injection engine (88o) and an extra-large osprey (7y) driven by a support bearing load coalescence 0 approaching counter-rotating manufactured compressed air (28a) combustion, and various energy storage cycle coalescence engines and coalescence methods.   Multi-high pressure fuel combustion injection propulsion that receives liquid oxygen (5K) + electricity + high-temperature water and is equipped with a theoretical combustion chamber (4Q) air suction channel, which is a vertical all blade water gravity turbine (8V) generator + Both-side center support bearing load coalescence 0 approach counter-rotating production compressed air (28a) combustion simple injection engine (88o) extra large Osprey (7y) driven various energy storage cycle coalescence engine and coalescence method.   Theoretical combustion blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression multiple theoretical combustion chambers (4Q) + both sides center support bearing load Combined zero approaching counter-rotating manufactured compressed air (28a) combustion simple engine (88o) oversized Osprey (7y) driven various energy storage cycle coalescing engine and coalescence method.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engines and coalescence methods that drive a simple gas engine (88m) large osprey (7z) as compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engine and coalescence method for driving a simple gas engine (88m) large osprey (7z) as a compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method driven by simple gas engine (88m) large osprey (7z) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engines and coalescence methods for driving a large gas spray (7z) by driving a plurality of simple gas engines (88m) 1 as combustion of compressed air (28a) with support bearing load coalescence.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engines and coalescence methods for driving a large gas spray (7z) by driving one or more simple gas engines (88m) as combustion of compressed air (28a).   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method for driving a large osprey (7z) by driving one or more simple gas engines (88m) as a counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engines and coalescence methods for driving a large gas spray (7z) by driving a plurality of simple gas engines (88m) 1 as combustion of compressed air (28a) with support bearing load coalescence.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engines and coalescence methods for driving a large gas spray (7z) by driving one or more simple gas engines (88m) as combustion of compressed air (28a).   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method for driving a large osprey (7z) by driving one or more simple gas engines (88m) as a counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) and driving a large osprey (7z) as combustion in compressed air (28a) combustion with support bearing load coalescence 0 approach.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engines and coalescence methods for rotating a simple gas engine (88m) drive propeller (7A) and driving a large osprey (7z) as combustion in compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engine and coalescence method for rotating a simple gas engine (88m) drive propeller (7A) and driving a large osprey (7z) as a compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engines and coalescence methods for rotating a simple gas engine (88m) drive propeller (7A) and driving a large osprey (7z) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion with simple gas engine (88m) 1-multiple drive propeller (7A) multiple energy storage cycle coalescence engine and coalescence driven multiple rotations (7z) Method.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engines and coalescence methods for producing simple compressed air (28a) combustion as simple gas engine (88m) 1 -multiple drive propeller (7A) and driving large osprey (7z).   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engines and coalescence methods for driving a large gas spray (7z) by rotating a simple gas engine (88m) 1 to a multiple drive propeller (7A) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Support bearing load coalescence 0 approaching counter-rotating production Compressed air (28a) Combustion with simple gas engine (88m) 1-multiple drive propeller (7A) multiple energy storage cycle coalescence engine and coalescence driven multiple rotations (7z) Method.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engines and coalescence methods for producing simple compressed air (28a) combustion as simple gas engine (88m) 1 -multiple drive propeller (7A) and driving large osprey (7z).   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engines and coalescence methods for driving a large gas spray (7z) by rotating a simple gas engine (88m) 1 to a multiple drive propeller (7A) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engines and coalescence methods for rotating a simple gas engine (88m) drive propeller (7A) and driving a large osprey (7z) as combustion in compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) driven simple injection engine (88o) extra large osprey (7y) as compressed air (28a) combustion with support bearing load coalescence 0 approaching counter-rotating production.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescing engine and coalescence method for driving simple gas engine (88m) driving simple injection engine (88o) extra large Osprey (7y) as manufactured compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) driving simple injection engine (88o) extra large Osprey (7y) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1 to plural driving 1 to plural simple injection engine (88o) extra large Osprey (7y) driving various energy storage cycle coalescing engine and Merge method.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescence engines and coalescence methods that drive simple gas engine (88m) 1-multiple drive 1-multiple simple injection engine (88o) extra large osprey (7y) as production compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) 1 to multiple drives 1 to multiple simple injection engines (88o) extra large Osprey (7y) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Support bearing load coalescence 0 approaching counter-rotating production compressed air (28a) combustion as simple gas engine (88m) 1 to plural driving 1 to plural simple injection engine (88o) extra large Osprey (7y) driving various energy storage cycle coalescing engine and Merge method.   Vertical all-blade hydrogravity turbine (8V) power generation electricity production, receiving liquid oxygen (5K) + electricity, theoretical combustion chamber (4Q) ultra high pressure fuel combustion + both sides center support bearing load coalescence 0 approach double reversal Various energy storage cycle coalescence engines and coalescence methods that drive simple gas engine (88m) 1-multiple drive 1-multiple simple injection engine (88o) extra large osprey (7y) as production compressed air (28a) combustion.   Received liquid oxygen (5K) + electricity + high temperature water, vertical combustion chamber (4Q) ultra high pressure fuel combustion + double-sided center support bearing combined load 0 approach of vertical-type all-bladed water gravity turbine (8V) power generation electricity production Various energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) 1 to multiple drives 1 to multiple simple injection engines (88o) extra large Osprey (7y) as counter-rotating manufactured compressed air (28a) combustion.   Theoretical combustion blade (4Q) super high-pressure fuel combustion + center of both sides, receiving liquid oxygen (5K) and making the compression volume 21/60000 of the air compression of vertical type moving blade water gravity turbine (8V) power generation electricity production Various types of energy storage cycle coalescence engine and coalescence method for driving a simple gas engine (88m) driving simple injection engine (88o) and multiple extra large osprey (7y) as combustion of compressed air (28a) combustion with support bearing coalescence 0 approaching counter-rotating production.

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