JP2012207597A - Various energy conservation cycle combined engine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve problems wherein, in a conventional steam turbine power generation, a power is 1/1,700 of a water power, output approaches zero by retaining by a half of stationary blades, and sea temperatures rises by 7°C, leading to a danger of the annihilation of the human race.SOLUTION: In this various energy conservation cycle combined engine and combining method, power generation by a vertical type whole moving blade water gravity turbine 8H is performed. Atmospheric pressure same speed same volume power is made to become water power 1,700 times larger than existing steam turbine power generation. Solar light heating air is compressed to have high temperature by one to a plurality of stages of electric heat pumps, and solar light heating another air is subject to heating, compression and heat recovery. Division into and storage and use of liquid air cold 28a and ultrahigh-pressure superheated steam heat 50 are performed. An aircraft for rocket propulsion at 185 MPa of liquid air combustion pressure aims at 1/500,000 of cost for reaching space. Space travel will be fully achieved so as to enable one-day trips at any place on the earth including travel around the globe 16 times a day. In a process of liquid air vessel driving, a speed of a natural phenomenon is increased so as to increase foods for human race such as fish and seaweed. By water gravity power generation, rise in sea temperatures by 7°C is prevented, so as to inhibit danger of the annihilation of the human race.

Description

Although the present invention requires various experiments for the theoretical best engine invention, the existing best steam turbine power generation has the same atmospheric pressure, same speed, and same volumetric power, kg weight m / sec. / 1700 is a little, and fuel costs and dangers such as boilers and nuclear reactors are enormous, and the steam speed is blocked and the workless static blades are alternately placed halfway with the moving blades, bringing the rotational output close to 0 and generating heat The sea temperature rises by 7 degrees in all, the sea surface rises in temperature, making the natural phenomenon impossible, the enormous earthquake tsunami with no upper limit, the increase in abnormal weather, and the danger of approaching the extinction of mankind due to heavy rains of seawater around 50 years, The green earth is a miracle product and has a high risk of approaching other stars, and as a technology to prevent human extinction, the vertical type moving blade water gravity turbine 8H has no fuel cost, and the atmospheric pressure, the same speed, and the same volumetric power are used. Turbine power generation 1700 times water power generation , Boiler and nuclear reactor abolished fuel cost 0 power generation, 8H power generation electric drive 1-multiple stage heat pump 1G and solar heater 2 The heat production is divided and stored and supplied by the vessel 2C, divided into 50 to 200 MPa superheated steam 50 heat + liquid air 28a cold and stored as electricity + liquid air cold + superheated steam heat supply equipment 3D, and used for ships, vehicles and airplanes Is supplied with liquid oxygen, liquid nitrogen, etc., making the compression work rate 1/600 of the existing reciprocating engine, and the compression pressure 20 times easier. And seaweeds, fish and other human foods are greatly increased in the food chain, etc. Airplanes and ships are driven by planes and automobiles, such as 1/10 CO2 exhaust, 1 / 10th fuel cost and 1 / 500,000 cost, aiming to reach space. Is 1 Double-speed aim, etc., related to technology of various energy conservation cycle union organizations and various energy conservation combined method.

  The most existing car-driven reciprocating engine in the world consumes enormous amount of fuel due to air compression, and is a vertical all-water blade turbine with infinite thermal efficiency. The liquid oxygen chamber 5K and the liquid nitrogen chamber 5L are received from the steam temperature / heat supply facility 1A and compressed into liquid oxygen, liquid nitrogen or water, and the compression work rate is reduced to 1/600 or 1/1700 to exceed 200 MPa. High pressure compression is facilitated, 200 MPa or the like is injected from the liquid oxygen chamber 5K or the liquid nitrogen chamber 5L into the high pressure and high temperature combustion gas chamber 5M, and the fuel injection ignition combustion is continuously maintained at 200 MPa or the like. The amount of combustion is increased by heating 50 200 MPa water or liquid nitrogen, and the amount of combustion is also increased by injection of liquid nitrogen or water in the combustion gas chamber 5M, and the combustion gas chamber 5M or steam in the pressure engine 1B drive chamber By maintaining the high pressure and high temperature of 50, a variety of multistage pressure engines 1B, such as a multistage oxygen pressure gear engine 3Z + a multistage water pressure gear engine 3N, which drive a number of various pumps and various compressors, respectively, are driven by liquid oxygen ultra-high pressure injection fuel injection combustion As an interlock between the multistage oxygen pressure reciprocating engine 3F and the multistage water pressure reciprocating engine 3M, the combustion temperature is optimized by injecting the fuel liquid combustion nitrogen and water several times in the process of driving the multistage oxygen pressure engine 1B. Steam and nitrogen are heated to drive the multi-stage water pressure engine 1B, and in the process linked to the multi-stage oxygen pressure engine 1B, water injection and liquid nitrogen injection are used to achieve the optimum pressure temperature. Depending on the application, the multi-stage oxygen pressure engine 1B can be used alone. Various vehicles such as automobiles and tillers, propellers 7A, rotor blades 7B and screws 7C can be driven and combined with various injection propulsion can be selected in the exhaust process. Aiming the world, it relates to a technology of various energy conservation cycle combined institutions and coalescence method.

  The existing jet gas turbine is almost the same as the steam turbine, and the rotation output and injection pressure are approached to the zero side with a stationary blade, and the injection propulsion output is made small. As a propulsion propulsion of the liquid merging jet 80 that far exceeds the space rocket, water gravity power generation electric drive many 1 to multi-stage heat pump 1G + solar heater 2 heat production, 50-200MPa large mass superheated steam temperature 50 + liquid air Divided and stored in cold heat 28a, received from electricity + liquid air cold heat + superheated steam temperature supply facility 3D, for example, superheated steam is injected into methane hydrate under permafrost and underwater, split into methane and hot water, methane is liquid nitrogen As recovered by cooling liquid methane, airplanes, vehicles and ships are also driven by liquid air 28a as in the case of the automobile, and received in the liquid oxygen chamber 5K + liquid nitrogen chamber 5L. The high-pressure high-temperature steam chamber 5N on the inner periphery is heated by combustion in the high-pressure high-temperature combustion gas chamber 5M to produce the high-pressure high-temperature combustion gas 49 and the high-pressure high-temperature steam 50, and the liquid coalescence injection unit 80 combustion gas control valve 24 is opened. Then, the high-pressure high-temperature combustion gas 49 is supplied to the multistage combustion chamber 1Y high-pressure high-temperature combustion gas chamber 5M, the fuel control valve 25b is opened and the fuel is injected and burned in 5M, and the water-vapor control valve 5P is opened to the high-pressure high-temperature steam chamber 5N. Inject and heat 1 stage with 5M, and similarly 2-stage combustion and multi-stage combustion, 2-stage heating and multi-stage heat injection, combustion gas 49 and water vapor 50 are injected 50 to 200 MPa in front of the air , Aiming for space arrival costs of 1 / 500,000, and making a day trip anywhere on the earth, such as making 16 orbits of the earth a day with a space flight close to zero fuel cost, and profitability on various space return planes The best in the world Cormorants, relates to a technology of various energy conservation cycle combined institutions and coalescence method.

  Existing ships use steam turbines, gas turbines, and even lower performance engines, and have a small amount of rotational output and injection propulsion output, and consume a huge amount of fuel for low-speed movement. Drive the screw ship 39D to drive the liquid water jet 80 in substantially the same manner as the liquid coalescing and jetting unit 80, sucking and jetting water and air in front and sucking and jetting water. In addition, fuel injection combustion can be selected, and a simple water jet 80 injection propulsion is added in the process of screw propulsion and exhaust, and natural phenomena are accelerated in the process of injection propulsion, aiming at 10 times the existing ship speed and 1/10 fuel cost. By supplying oxygen, nitrogen, CO2, etc. into the sea, the microorganisms, phytoplankton, seaweeds, corals, fish, etc. can be increased to increase human food, and the thermal efficiency profit rate is outstanding Field one aim, relates to a technology of various energy conservation cycle combined institutions and coalescence method.

  Considering elementary school science without brainwashing, the existing best steam turbine power generation at the same pressure and volumetric capacity kg kg m / sec is slightly less than 1/1700 of the vertical all-blade water gravity turbine 8H power. In addition to the fact that the rotating speed is approaching the zero side, the rotating power is approaching the zero side, and the total amount of generated heat is The temperature of seawater is increased by 7 degrees, making the whole sea surface temperature-increasing natural phenomenon, increasing abnormal weather without an upper limit, and increasing the danger of human beings approaching extinction due to heavy rains of seawater around 50 to 100 years. 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 / second, etc., and there will be danger of human beings extinction due to the covering of concentrated rainwater salt in the seawater, 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 mankind extinction is approaching rapidly 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 / second, 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 1/10 speed 1/10 volumetric power is Turbine power generation is 17 times the work rate power generation, but a huge amount of power generation such as 1700 times power generation is expected with 100 units at a height of 500m or more, water resources are enormous, and if deep sea water is used, there are many by-products and fuel costs are The thermal efficiency of the power generation is infinite power generation, vertical type moving blade water gravity turbine 8H large-diameter plastic turbine blade 8c water repellent coating, 50m in 500m assuming one unit is driven by the largest water resource on earth , The largest gravitational energy of the earth, 170 times the work efficiency of steam turbines Elementary school science power generation, output 1000MW (power plant) × 17 times work rate × 50 units = 850,000MW = 850 power plants, a lot of cheap Shift to expansion of low-cost electricity usage with zero fuel cost generation by water resources, solar heating the air with solar heater 2, and compression multiple times with 1-stage heat pump 1G with fuel cost zero power generation electric drive The recovered heat is recovered and divided into 50 to 200 MPa superheated steam temperature 50 + liquid air cooling heat 28a, supplied from the electricity + liquid air cooling heat + superheated steam temperature supply facility 1A, and received by the liquid oxygen chamber 5K and the liquid nitrogen chamber 5L. In addition, by driving liquid-air-powered automobiles, airplanes and ships to 1/10 fuel cost driving or 10-times speed driving, it is possible to obtain extremely inexpensive power storage battery driving and electric driving, and to prevent global warming with little CO2 emissions. There is a background.

  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 blade dynamic gravity turbine 8H power generation is used, there is a background that the thermal efficiency becomes infinite power generation, and it is a fuel for elementary school science to heat enormous methane hydrate that sleeps in the sea near Japan or permafrost. Cost 0 heating is the best. Therefore, the fuel cost 0 power generation electric drive solar heater 2 is used, and the solar heating air 28a is compressed a plurality of times by the fuel cost 0 power generation electric drive 1 to multistage heat pump 1G1 to multistage compression heat recovery unit 2C. Heat collected multiple times, divided and stored in cold liquid oxygen 5K and liquid nitrogen 5L + warm superheated steam 50, and injecting superheated steam 50 into methane hydrate under permafrost, for example, in the process of infinite use of heat Divided into high-temperature water, recovered methane with liquid nitrogen cooled liquid methane, continued superheated steam injection forever, made the methane recovery enclosure grazing in a grazing land with appropriate temperature and many water droplets, increasing human food use heat Then, increase the production volume of liquid air 28a, make liquid air driven automobiles and ships and spacecrafts prime, aim for space arrival cost 1 / 500,000, natural phenomenon speeding up 2a in the process of ship driving, Microbe The food of fish such as the human race to increase the seaweed and coral, such as in growth the food chain, etc., sea water and heavy rain prevented, 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 is filed with Japanese Patent Application No. 2009-048869, application date March 3, 2009 to Japanese Patent Application No. 2010-007805, and application date January 18, 2010. There is.

  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 the natural phenomenon of supplying nutrients to the sea-cooled seabed impossible in winter, drastically reducing microorganisms, phytoplankton, seaweeds, corals, etc. Decreased to 1/100, etc., the number of underwater foods has been reduced as much as possible, and droughts, torrential rains, typhoons and seasonal winds have increased 10 times in 100 years. For example, typhoons and seasonal winds have no upper limit such as 300m / sec. of Creates a disaster that exceeds Haiti by enlarging submarine rock expansion earthquakes and tsunamis, preventing heavy rains of seawater to increase the danger of human extinction, preventing global warming by raising seawater temperature, etc. There is a challenge to postpone 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 Proceeding with the destruction of industrialized equipment in the industrialized countries, there is a danger of increased employment deficit, and the implementation of inventions that can be imitated is recognized as out of date, and profits as a top-secret manufacturing operation of inventions that continue to be a 100% monopoly worldwide forever There is a challenge to be the best in the world.

A vertical full-blade water gravity turbine 8H fuel cost 0 heat efficiency infinite power generation, heat production by solar heater 2+ electric drive 1-multistage heat pump 1G + 1-multistage compression heat recovery unit 2C, electricity + liquid air As the cold heat + superheated steam temperature supply facility 3D, the received liquid air injection fuel injection combustion is performed to form a high pressure high temperature combustion gas chamber 5M of 50 to 200 MPa, and the high pressure high temperature steam chamber 5N configured by water injection on the inner periphery and outer periphery is heated Then, the high-temperature high-temperature combustion gas chamber 5M with an optimum temperature of 50 to 200 MPa + the high-pressure high-temperature steam chamber 5N is used, and the compression volume is set to 1/600 or 1/1700 independently by liquid compression. The high-pressure high-temperature combustion gas control valve 5a + the steam control valve 5P is opened, and the pressure engine 1B and the liquid water jet 80 are supplied from the high-pressure high-temperature combustion gas chamber 5M + the high-pressure high-temperature steam chamber 5N. Supplied to the liquid coalescence injection unit 80, drives the pressure engine 1B, the liquid water jet 80, and the liquid coalescence injection unit 80 to drive vehicles such as automobiles, ships and airplanes. By supplying oxygen, nitrogen, CO2, etc. into the sea, the microorganisms, phytoplankton, seaweeds, corals, fishes, etc. are grown to increase human food. As a lap, etc., it is aimed at day trips anywhere on the earth and the CO2 exhaust is a little flight in the atmosphere. Being the best in the world, it will prevent droughts, torrential rains, typhoons, seasonal winds, heavy rains in seawater, and huge earthquakes and tsunamis to prevent global warming and postpone human extinction.

A vertical full-blade hydrogravity turbine 8H thermal efficiency infinite power generation has the effect of simplifying the structure with no fuel cost and no boilers or nuclear reactors. 1700 times water gravity turbine power generation, and the effect of enlarging the water drop and approaching the power generation amount 1700 times that of the existing power generation amount is large, and the liquid from the electricity + liquid air cold heat + superheated steam heat supply facility 3D of infinite thermal efficiency power generation Supply to oxygen chamber 5K + liquid nitrogen chamber 5L, inject ultra-high pressure, fuel injection ignition combustion into vaporized oxygen and heat vaporized nitrogen gas to make 50-200 MPa high pressure high temperature combustion gas chamber 5M + high pressure high temperature steam chamber 5N, In addition to driving oxygen pressure engines, water pressure engines, liquid water jets, and liquid coalesced injection units, it is possible to target automobiles, ships and airplanes for fuel costs of 1/10 or 10 times the speed, The efficiency that can be aimed at 850,000 MW power generation with one infinite efficiency gravity turbine 8P generator, and the effect that the space arrival cost can be aimed at 1 / 500,000 of existing space rockets, generator 1 and screw 7C and propeller 7A and rotor blades 7B are driven at a very low cost and can be combined with the liquid water jet 80 and the liquid combined injection unit 80 in the process of oxygen pressure engine + water pressure engine exhaust. It has the effect of being able to target the output, fuel costs are low, 10 times the speed of existing ships and airplanes, etc. Power generation, ships, airplanes, automobiles, etc. that are 100% monopolized and operated worldwide. It has the effect of aiming for the best in the world and the best in the world for new employment.

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. Power generation electric drive to prevent global warming, thermal efficiency infinite gravity power generation electric drive electricity + liquid air cold heat + superheated steam temperature supply equipment, liquid oxygen + liquid nitrogen fuels cars, airplanes and ships with little fuel costs Driving, speeding up natural phenomena in ship driving, and supplying it as nutrients such as nitrogen, oxygen and CO2 in the sea, increasing the digestive capacity of underwater microorganisms such as CO2 to aim for tens of thousands of times in the forest Large, phytoplankton, seaweeds, corals, etc., propagate fish, etc. in the food chain, greatly increase the human food underwater, prevent desertification, drought, concentrated heavy rain, typhoon, seasonal wind, earthquake tsunami, etc. In addition, it has the effect of preventing heavy rains in seawater and delaying the most important human extinction in humankind.

Airplane drive receives electricity + liquid air cold heat + superheated steam temperature heat supply equipment of thermal efficiency infinite gravity power generation electric drive, liquid oxygen + liquid nitrogen, and fuels liquid oxygen into high pressure high temperature combustion gas chamber 5M as super high pressure injection vaporized oxygen High-temperature high-temperature steam 5N in the high-pressure high-temperature steam chamber 5N is heated by injection ignition combustion, and the liquid coalescence injection unit 80 is driven as 50 to 200 MPa high-pressure high-temperature combustion gas 5M + high-pressure high-temperature steam 5N. Has the effect of aiming for space use with the same fuel cost 10 times injection propulsion output, for example, the injection propulsion output is 100 times the pressure of existing jets 10 times the calorie injection for a short time 1000 times injection propulsion output As for the propeller flight, rotor blade flight and injection propulsion aiming at low fuel costs in the atmosphere, the steam injection speed and the combustion gas injection speed are the largest in vacuum Therefore, the existing space rocket ground mass injection is considered the worst, and from around the highest flight altitude of the existing aircraft, the injection amount of high pressure high temperature combustion gas 5M + high pressure high temperature steam 5N of 50-200MPa is increased 16 times a day, etc. And it has the effect of being able to aim for a prime use of space where you can take a day trip anywhere on the planet.

Explanatory drawing of a vertical type moving blade water gravity turbine 8H (Example 1) Inner blade group 60C and outer blade group 60D and turbine blades (Example 2) Illustration of Electricity + Liquid Air Cooling + Superheated Steam Heat Supply Equipment 3D (Example 3) Explanatory drawing of liquid screw ship 39D (Example 4) Explanatory drawing of liquid water suction water jet 80 screw ship 39D (Example 5) Explanatory drawing of liquid water suction water jet 80 ship 38C (Example 6) Explanatory drawing of liquid air suction water jet 80 ship 38B (Example 7) Example of liquid air suction water jet 80 screw ship 39E (Example 8) Explanatory drawing of liquid coalescence injection part 80 airplane 39A (Example 9) Explanatory drawing of liquid coalescence injection unit 80 rotating airplane 39B (Example 10) Explanatory drawing of the oxygen pressure reciprocating engine 3F (Example 11) Explanatory drawing of the oxygen pressure gear engine 3Z (Example 12) Explanatory drawing of liquid water suction water jet 80U (Example 13) Explanatory drawing of liquid water suction water jet 80X (Example 14) Explanatory drawing of liquid air suction water jet 80S (Example 15) Explanatory drawing of liquid air suction water jet 80T (Example 16) Explanatory drawing of liquid air suction water jet 80Y (Example 17) Explanatory drawing of liquid air suction water jet 80Z (Example 18) Explanatory drawing of liquid union injection part 80W (Example 19) Explanatory drawing of liquid union injection part 80V (Example 20) Explanatory drawing of the liquid coalescence injection part 80E (Example 21) Explanatory drawing of liquid unification injection part 80F (Example 22)

  The existing engine is brainwashed and the invention is blocked for a long time. For example, the existing best steam turbine power generation has the same atmospheric pressure, same speed, same volumetric power, kg weight m / sec. It is alternately installed and dammed to bring the rotational output close to 0, the seawater temperature rises by 7 degrees with all the heat generated by steam turbine power generation, the fish drastically diminishes, the submarine bedrock expands into earthquakes and tsunamis, and typhoons around Japan around 20 years ago And the rising wind of seasonal winds and tornadoes at sea is increased to 100m / second, and a heavy rain of suction seawater is expected over the seawater. There is a risk of sudden approach. That is, since the invention becomes too large due to many fatal defects of the existing technology, the invention is described in the explanation of the reference numerals, and the parts that have been repeatedly described in the previous application are omitted, and the parts other than the vertical type moving blade water gravity turbine 8H are omitted. As the type is a horizontal full-blade gravity turbine, which is close to the existing turbine, the vertical full-blade water gravity turbine 8H example will be used as a substitute, and the vertical full-blade water gravity turbine 8H and horizontal opposed full-blade water gravity will be described. The turbine 8P / horizontal series full-blade water gravity turbine 8P / horizontal biting full-blade water / gravity turbine 8P will be used as an alternative explanation. We will challenge the embodiment of the invention that omits.

Fig. 1 The best theoretical engine that requires experimentation, but the vacuum-accelerated saddle type full blade water gravity turbine 8H power generation uses the inner blade group 60C outer blade group 60D inner shaft device 60A and outer shaft device 60B as much as possible. Multi-stage turbine blades 8H with multiple turbine blades 8c are made of 9-rotation fixed assembly with the same diameter approximately the same shape, each ring screw assembly, and 9-rotation fixed so that fully automatic processing is possible. As a thrust bearing 80a equipped with a metal O-ring with a large diameter portion and a slightly inclined portion supporting the bearing, the hydraulic levitation thrust bearing 80a, which is the best hydraulic levitation additional experiment, is used. 1h through-holes for driving the generator 1, the generator 1 is driven plurally outside the turbine outer box 77a, and the multistage saddle-type all-blade water gravity turbine 8H is driven alternately in the rotational direction, and the gravitational acceleration unit 1g acceleration The next turbine 8H is driven alternately one after the other, 100 heads or more are used with no drop, and 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. Atmospheric pressure 1/10 speed 1/100 capacity 100 vertical all-blade water gravity turbine 8H1 power generation amount, 170 times the power generation amount of the existing one power generation needs to be developed, and the air extractor 51 is gasified Dedicated cooling chamber 11D equipped with maximum vacuum, only cooling frictional heat of water, slight cooling, seawater temperature rise 0CO2 exhaust 0 fuel cost 0 prevention of global warming, no boiler or nuclear reactor structure, simple and inexpensive electrical manufacturing It is necessary to develop the world's best electric applications with an infinite number of things and an electric drive infinite number of times, and make various energy storage cycle combined engine power generation and combined power generation methods.

The vertical all blade hydrogravity turbine 8H is driven by hydrogravity vacuum acceleration, with 1 to 120 heads in the turbine outer box 77a being used for unlimited drop, and accelerated by gravitational acceleration in water 3E injection by the specific material accelerator 6W, The inner and outer sides of the same number of turbine blades 8c are driven by a jet-type full-motion blade water gravity turbine 8H, and the existing double-sized plastic turbine 8H, water-repellent coating, etc. are made inexpensive and light, and deep ocean water 52a is driven. Efforts to use as water and cooling water, condensate by cooling deep ocean water 52a11-12 ° C in the air extraction chamber 51A, make the maximum vacuum by air extractor 51, concentrate deep ocean water by reverse osmosis membrane or electrodialysis Increase in specific gravity and surface tension, enter into the production of drinking water and salt by drying, etc. to make cosmetics, beverages and food, etc. using clean deep mineral water 52a rich in minerals, specific gravity and surface As the deep sea water 52a driving force increase, the atmospheric pressure, the same speed, the same volumetric power, kg weight m / second, is increased to 1700 times that of the existing steam turbine power generation, and the generator 1 is driven to generate a large number of 1-stage heat pumps 1G. The rotational direction of the outer rotor blade group 60D and the inner rotor blade group 60C of the turbine blade 8c of 2 to 12 times area is alternately rotated by the counter rotating magnetic friction device 84 or the counter rotating gear device 84Y, and vibration or A vertical type full-blade water gravity turbine 8H with minimal noise cancellation is used to generate various energy storage cycle combined engine power generation.

Vertical-type full-blade water gravity turbine 8H horizontal axis 1h drive power drive of generator 1, 1-stage heat pump 1G makes air suction around 20-100 degrees, 1-stage compression heat recovery unit 2C air heat exchanger 2X The air 28a is heated to about 20 to 100 degrees and compressed to 100 to 500 degrees by the 1st stage heat pump 1G, and the heat production is increased by increasing the compressed air 28a by repeating the heat recovery and compression with another air. The compressed air 28a is heated one or more times one or more times with the multistage heat pump 1G, and the heat recovery temperature is lowered one or more times with the two-stage multiple-stage compressed heat recovery unit 2C air heat exchanger 2X. In the water heat exchanger 2Y that raises the pressure one or more times, the superheated steam temperature 50 is manufactured, and the pressure of the compressed air 28a and the superheated steam 50 is increased to meet the demand for heat and cold, and the liquid air 28a is heated to the liquid oxygen chamber 5K + liquid. Store in 5 L of nitrogen chamber, 400 50-200MPa of superheated steam before and after is stored separately in a high-pressure high-temperature steam chamber 5N, and it is used in various applications as electricity + liquid air cold heat + superheated steam heat supply equipment 3D. For example, the heat 50 is injected into methane hydrate to recover methane Then, using the cold liquid 28a as the cooling liquid methane, the rice cooker and the washing and drying machine are driven by the hot 50, and the hot 50 and the cold 28a are used for heating and cooling, etc. As a heating revolution or cooling revolution corresponding to the application, driving a car, an airplane or a ship with liquid air cooling 28a, speeding up the natural phenomenon 2a in the process of driving the ship, supplying nitrogen, oxygen and CO2 to seawater Microorganisms and phytoplankton And seaweeds will increase, and the food chain will greatly increase human food such as fish and seaweeds.

  The turbine blades 8c of the inner rotor blade group 60C and the outer rotor blade group 60D of FIG. 2 are configured to rotate in opposite directions with the same shape and the same area when the rotation directions are different by 180 degrees. 60C projects a large number of turbine blades 8c in the outer circumferential direction from the inner shaft device 60A, and includes a plurality of outer blade groups 60D in the center direction from the outer shaft device 60B. The inner shaft device 60A and the outer shaft device 60B. Enables the weight of the turbine 8H to be made of light alloy, plastic, cemented carbide, etc., as the same-diameter substantially the same screw assembly 9 for each paragraph, making the multi-stage moving blade group multi-stage turbine 8H lighter, easier to fully machine, and easier to assemble In the case of power generation, the ratio of the amount of resources in the case of power generation Concentrated deep ocean water 3E with the highest surface tension is prioritized, and low-temperature water 52a such as intake temperature 11-12 ° C is used. Air extractor 51 is provided in air cooling chamber 11D for air extraction. Corresponding to concentrated deep ocean water 3E by reverse osmosis membranes and electrodialysis, as a water business entry such as increased rotation output and drinking water production, production and use of clean and mineral-rich salt, cosmetics, beverages and food manufacturing, etc. Since there is no prior art for all rotor blades rotating in opposite directions, an experiment is necessary. However, if the small large output of the vertical all blade water gravity turbine 8H is proved, the small large output is Because it is 5 to 10 times as large as the horizontal full-blade water gravity turbine 8P, there is a possibility of unifying the research and development of the vertical full-blade water gravity turbine 8H power generation.

  Explaining the electricity + liquid air cold heat + superheated steam temperature supply facility 3D in FIG. 3, the vertical all-rotor blade water gravity turbine 8H fuel cost 0 power generation electric drive, using various water surfaces, the largest in the earth Two or more rectangular long lenses 2d are stacked in a straight line to collect the amount of heat, and the temperature of the heat absorbing material 2B is increased by the long lens 2d aiming at the shortest focal length and the temperature of the air passage 28A is increased. -As a heat production with a multistage heat pump 1G, the entire lens material can be used as a rectangular long lens 2d extending linearly in the cross section of the existing lens, and a heat insulating material 2c such as foamed plastic is surrounded by a half-cylindrical outer box 77B A long cylinder such as a cylinder is provided, a heat-resistant material 2A is provided therein, and the air 28a is heated by a plate-like heat absorbing material 2B which is heated to high temperature by solar heat, and a plurality of wide and long long lenses 2d are stacked on the upper part. Fitting 80A + Fastener 80B Provided in a hermetically sealed vacuum insulation, the focal length can be maximized with the shortest possible width, and can be extended with a joint 80A in the longitudinal direction and at a right angle. It is possible to control the solar heater 2 to make a right angle with the sunlight rotated 180 degrees from the east to the west on the water. 1 type multi-stage hydrogravity turbine 8H power generation electric drive, 1 to multi-stage heat pump 1G is set to suction compression 800 to 1200 degrees, etc. Repeated heat recovery by the multistage compression heat recovery unit 2C, liquid oxygen is divided and stored in the liquid oxygen chamber 5K, liquid nitrogen is divided and stored in the liquid nitrogen chamber 5L, and the superheated steam temperature 50 is transferred to the high-pressure high-temperature steam chamber 5N. Min And Homago, and electrical + liquid air cold + superheated steam heat supply facilities. 3D, a variety of thermal utilization prime and various cold use golden.

The pressure engine 1B drive of the liquid screw ship 39D in FIG. 4 will be described. The vertical oxygen moving water gravity turbine 8H power generation electric production of the vertical type moving blade water gravity turbine 8H receives from the electric + liquid air cold heat + superheated steam temperature heat supply equipment 3D, the liquid oxygen chamber Liquid oxygen is received and stored in 5K, liquid nitrogen is received and stored in the liquid nitrogen chamber 5L, superheated steam 50 is received and stored in the high-pressure and high-temperature steam chamber 5N, and liquid nitrogen injection + liquid oxygen injection into the high-pressure and high-temperature combustion gas chamber 5M + Fuel injection combustion, high pressure high temperature steam 5N on the outer periphery and inner periphery is heated, and addition of liquid nitrogen and water injection can be selected for each, high pressure high temperature combustion gas chamber 5M of around 50-200MPa and high pressure high temperature The steam chamber 5N is opened, for example, the high-pressure and high-temperature combustion gas control valve 5a is opened, and the high-pressure and high-temperature combustion gas is supplied to the oxygen pressure gear engine 3Z having the intake passage of the gear pump as the first-stage combustion chamber 1Y. The high pressure and high temperature steam 5N of the inner and outer water pressure gear engines 3N is heated as high pressure and high temperature, and the multistage oxygen pressure gear engine 3Z is combusted in multiple stages to link the multistage water pressure gear engine 3N with multistage heating. A simple liquid water jet 80 is constructed in the process of exhaust by driving the screw 7C, the gas air compression of the existing reciprocating engine or gas turbine is liquid air compression, the compression work rate is 1/600, and the target is 100 times output. Combining various energy conservation cycles with medium speed large-sized screw ship 69D aiming at 10 times the speed of a ship and promoting natural phenomenon speedup 2a, aiming at 10 times the same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate Institutions and coalescing methods.

The liquid water suction water jet 80 screw ship 39D driving in FIG. 5 will be described. The vertical oxygen moving blade water gravity turbine 8H power generation electric production of electricity + liquid air cold heat + superheated steam temperature supply equipment 3D received, liquid oxygen Liquid oxygen is received and stored in the chamber 5K, liquid nitrogen is received and stored in the liquid nitrogen chamber 5L, superheated steam 50 is received and stored in the high-pressure and high-temperature steam chamber 5N, and liquid nitrogen injection + liquid oxygen is stored in the high-pressure and high-temperature combustion gas chamber 5M. High pressure and high temperature steam 5N on the outer periphery and inner periphery is heated by injection + fuel injection combustion, and addition of liquid nitrogen and water injection can be selected for each, and a high pressure and high temperature combustion gas chamber 5M of about 50 to 200 MPa 500 degrees or high pressure A high-temperature steam chamber 5N is used, and the oxygen pressure reciprocating engine 3F and the oxygen pressure gear engine 3Z are driven by 5M + 5N, respectively, and the traveling direction is steered by the screw 7C driving rudder 40A. The liquid water suction water jet 80X is driven by 5M + 5N, and 3F or 3Z exhaust gas is merged and injected into the 80X optimum pressure part in the course of injection propulsion, and the screw 7C drive exhaust gas is merged with the 3F or 3Z rotation output to generate liquid water. Suction water jet 80X combined jet propulsion promotes natural phenomenon speedup 2a, gas-air compression of existing reciprocating engines and gas turbines is liquid-air compression, compression power is 1/600, and the target is 100 times output. Various energy conservation cycle coalescence engine with double speed aim injection propulsion, same speed CO2 exhaust 1/10 fuel cost 1/10 operation profit ratio aiming 10 times of existing ship, medium-sized liquid water suction water jet 80 screw ship 39D And a coalescence method.

  The liquid water suction water jet 80 ship 38C drive in FIG. 6 will be described. The high pressure and high temperature steam received from the electric + liquid air cold heat + superheated steam temperature supply facility 3D of the vertical type moving blade water gravity turbine 8H power generation electric manufacturing. The superheated steam 50 is received and stored in the chamber 5N, the liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed in the high pressure and high temperature combustion gas chamber 5M, and the high pressure and high temperature steam 5N on the outer periphery and inner periphery is heated. The addition of water injection can be selected, and the high-pressure and high-temperature combustion gas chamber 5M and the high-pressure and high-temperature steam chamber 5N of around 50 to 200 MPa 500 degrees are set to 5M + 5N, and the liquid water suction water jet 80X is driven by the 5M + 5N. Accelerate natural phenomenon 2a by jetting 38C, supplying nitrogen, oxygen, CO2 etc. into seawater, food and nutrition to microbes and seagrass in the sea Increase the supply of underwater resources, increase food for humans such as fish and kombu in the food chain, etc., gas air compression of existing reciprocating engines and gas turbines as liquid air compression, compression work rate 1/600, output 100 times The aim is to make the jet propulsion aiming at 10 times the speed of the existing ship, the same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate, aiming 10 times that of the existing ship, the medium-sized liquid water suction water jet 80 ship 38C, Various energy storage cycle coalescence engines and coalescence methods are used.

  The liquid air suction water jet 80 ship 38B drive in FIG. 6 will be described. The high pressure high temperature steam received from the electric + liquid air cold heat + superheated steam temperature heat supply equipment 3D of the vertical type moving blade water gravity turbine 8H power generation electric manufacturing. The superheated steam 50 is received and stored in the chamber 5N, the liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed in the high pressure and high temperature combustion gas chamber 5M, and the high pressure and high temperature steam 5N on the outer periphery and inner periphery is heated. It is possible to select the addition of water injection, high pressure high temperature combustion gas chamber 5M or high pressure high temperature steam chamber 5N of about 50 to 200 MPa 500 degrees or 5N + 5N to drive liquid air suction water jet 80Z, liquid air suction water jet 80 ship 38B is injected and propelled to speed up natural phenomena 2a, and air is sucked and injected to increase the supply of nitrogen, oxygen, CO2, etc. into seawater As a result, the supply of food and nutrients to the microbes and seagrass in the sea is increased, the food of the human chain, such as fish and kombu, is increased in the food chain, etc. Medium-to-large size aiming at 100 times output with a compression work rate of 1/600, aiming at 10 times speed injection of existing ships, aiming at 10 times the same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate of existing ships Liquid air suction water jet 80 ship 38B, various energy storage cycle coalescence engine and coalescence method.

The liquid air suction water jet 80 screw ship 39E drive in FIG. 8 will be described. The vertical oxygen moving water turbine 8H power generation electric production of the vertical type moving blade water gravity turbine 8H receives from the electric + liquid air cold heat + superheated steam temperature supply equipment 3D, liquid oxygen Liquid oxygen is received and stored in the chamber 5K, liquid nitrogen is received and stored in the liquid nitrogen chamber 5L, superheated steam 50 is received and stored in the high-pressure and high-temperature steam chamber 5N, and liquid nitrogen injection + liquid oxygen is stored in the high-pressure and high-temperature combustion gas chamber 5M. High pressure and high temperature steam 5N on the outer periphery and inner periphery is heated by injection + fuel injection combustion, and addition of liquid nitrogen and water injection can be selected for each, and a high pressure and high temperature combustion gas chamber 5M of about 50 to 200 MPa 500 degrees or high pressure The high-temperature steam chamber is set to 5N, and the oxygen pressure reciprocating engine 3F and the oxygen pressure gear engine 3Z are driven by 5M + 5N, respectively, and the traveling direction steering is performed by the screw 7C driving direction rudder 40A. The liquid air suction water jet 80Z is driven by 5M + 5N, and the 3F or 3Z exhaust gas is merged and injected into the 80Z optimum pressure part in the process of injection propulsion, and the screw 7C drive exhaust gas is merged with the rotation output of 3F or 3Z, and the liquid Air suction water jet 80Z confluence injection speeds up natural phenomenon 2a, gas air compression of existing reciprocating engines and gas turbines is liquid air compression, compression work rate is 1/600, aiming for 100 times output, Combined with various energy conservation cycles, aiming at 10x speed injection propulsion, same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate 10 times that of existing ship, medium and large liquid air suction water jet 80 screw ship 39E Institutions and coalescing methods.

Referring to FIG. 9, the combined liquid jet unit 80 plane 39A is driven. The high pressure / high temperature steam chamber is received from the electric / liquid air cold / superheated steam temperature / heat supply facility 3D of the vertical all-blade water gravity turbine 8H power generation electric manufacturing. The superheated steam 50 is received and stored in 5N, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed in the high-pressure and high-temperature combustion gas chamber 5M, and the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery is heated. Addition of injection is made selectable, and a high-pressure high-temperature combustion gas chamber 5M or a high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 degrees is formed into a high-pressure high-temperature steam chamber 5N. The gas air compression of the existing gas turbine is liquid air compression, the compression work rate is 1/600, and the fuel combustion amount is more than 10 times easier to output 1000 times In order to make sure that the rocket will reach the space for a short time 1000 times output when the space rises, the space arrival cost will be reduced to 1 / 500,000, etc. It enables day trips anywhere on the earth, such as 16 rounds of the earth per day, fuel costs are minimal when flying in the atmosphere, and the existing jets are considered the worst because the jet speed is the highest in vacuum and the existing space rocket ground injection is the worst. Reach the space by propelling high power rockets at the highest flight altitude, and when returning to the earth, rotate the liquid coalesced injection part 80F cylindrical rotating part 77G by 180 degrees, reverse injection deceleration earth return, gravity acceleration support, vertical ascending vertical descent The energy storage cycle coalescence engine and the coalescence method are made into a method of making the airfield anywhere such as space use, building rooftop or moon surface.

Referring to FIG. 10, the liquid combined jet unit 80 rotating airplane 39B is driven. The high-pressure and high-temperature steam is received from the electricity + liquid air cold heat + superheated steam temperature / heat supply facility 3D of the vertical all-blade water gravity turbine 8H power generation electric manufacturing. The superheated steam 50 is received and stored in the chamber 5N, the liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed in the high pressure and high temperature combustion gas chamber 5M, and the high pressure and high temperature steam 5N on the outer periphery and inner periphery is heated. The addition of water injection can be selected, and the high-pressure / high-temperature combustion gas chamber 5M or the high-pressure / high-temperature steam chamber 5N of about 50 to 200 MPa 500 degrees is set to 5N + 5N. 39A is injected and propelled, gas-air compression of the existing gas turbine is liquid-air compression, compression work rate is 1/600 and fuel combustion amount is 10 times or more easy When aiming for output, assured that the rocket will reach the universe for 1000 times in a short time when the universe rises, the space arrival cost will be reduced to 1 / 500,000, etc. This makes it possible to make day trips anywhere on the earth, such as 16 rounds of the earth per day.

When flying in the atmosphere, the oxygen pressure reciprocating engine 3F and the oxygen pressure gear engine 3Z are driven by 5M + 5N, respectively, the traveling direction steering is driven by the propeller 7A driving direction rudder 40A, and the liquid combined injection unit 80F is driven by 5M + 5N, In the process of injection propulsion, the 3F or 3Z exhaust is combined and injected into the 80F optimum pressure part, and the propeller 7A drive exhaust is combined with the rotation output of 3F or 3Z, and the liquid combined injection part 80F is combined and propelled to reduce fuel cost. Since the speed is the maximum at vacuum, the existing space rocket ground mass injection is considered the worst, and it reaches the space by the method of propelling the high output rocket at the highest flight altitude of the existing airplane. Rotate the same angle to allow reverse injection deceleration earth return, gravitational acceleration response, vertical ascending and vertical descent, anywhere in space use, building rooftop, moon surface etc. In the way to the airport, to a variety of energy storage cycle combined institutions and coalescence method.

When the oxygen pressure reciprocating engine 3F drive of FIG. 11 is described, it is received from the electricity + liquid air cold heat + superheated steam temperature heat supply equipment 3D of the vertical all-blade water gravity turbine 8H power generation electric manufacturing, and the liquid oxygen chamber 5K is liquid-filled. Receiving and storing oxygen, receiving and storing liquid nitrogen in the liquid nitrogen chamber 5L, receiving and storing superheated steam 50 in the high-pressure and high-temperature steam chamber 5N, and liquid nitrogen injection + liquid oxygen injection + fuel injection in the high-pressure and high-temperature combustion gas chamber 5M Combusting and heating the high-pressure high-temperature steam 5N on the outer periphery and inner periphery in the same manner as the oxygen pressure reciprocating engine 3F, enabling the addition of liquid nitrogen or water injection to each, and the high-pressure high-temperature combustion gas around 50 to 200 MPa 500 degrees The high pressure and high temperature steam chamber 5N is opened, the high pressure and high temperature combustion gas control valve 5a is opened, and the high pressure and high temperature combustion gas 5M is supplied to the oxygen pressure reciprocating engine 3F having the suction passage of the reciprocating compressor as the first stage combustion chamber 1Y. The reciprocating piston 3H is moved and driven from the fuel injection nozzle 6X as a fuel injection combustion high pressure and high temperature, the exhaust valve 5D of the opposite side second stage combustion chamber 1Y exhaust chamber 5C is opened, and the high pressure high temperature combustion gas 5M is supplied to the third stage combustion chamber 1Y. In the configuration in which the next oxygen pressure reciprocating engine 3F is driven one after another in the three-stage combustion or the four-stage combustion, the high-pressure and high-temperature steam 5N of the water pressure reciprocating engine 3M on the inner and outer circumferences is driven in the next driving process. In the same way as 3F, the multi-stage water pressure reciprocating engine 3M is interlocked with the multi-stage heating, and the rotation outputs are combined to drive the propeller 7A, the rotor blade 7B, and the screw 7C. Various energy storage cycle coalescence engines and coalescence that make it possible to select the merging in the configuration, the simple liquid coalescence injection unit 80, the liquid water jet 80 or the liquid coalescence injection unit 80 optimum pressure part To the law.

The oxygen pressure gear engine 3Z drive of FIG. 12 will be described. The oxygen pressure gear engine 3Z drive is received from the electric + liquid air cold heat + superheated steam temperature supply facility 3D of the vertical type moving blade water gravity turbine 8H power generation electric manufacturing, and the liquid oxygen chamber 5K is supplied with liquid. Receiving and storing oxygen, receiving and storing liquid nitrogen in the liquid nitrogen chamber 5L, receiving and storing superheated steam 50 in the high-pressure and high-temperature steam chamber 5N, and liquid nitrogen injection + liquid oxygen injection + fuel injection in the high-pressure and high-temperature combustion gas chamber 5M Combusting and heating the high-pressure high-temperature steam 5N on the outer periphery and inner periphery in the same manner as the oxygen pressure reciprocating engine 3F, enabling the addition of liquid nitrogen or water injection to each, and the high-pressure high-temperature combustion gas around 50 to 200 MPa 500 degrees The high-pressure high-temperature combustion gas 5M is supplied to the oxygen pressure gear engine 3Z having the chamber 5M and the high-pressure high-temperature steam chamber 5N, the high-pressure high-temperature combustion gas control valve 5a being opened, and the intake passage of the gear pump being the first-stage combustion chamber 1Y. The reciprocating piston 3H is moved and driven from the fuel injection nozzle 6X as a fuel injection combustion high pressure and high temperature, the exhaust valve 5D of the opposite side second stage combustion chamber 1Y exhaust chamber 5C is opened, and the high pressure high temperature combustion gas 5M is supplied to the third stage combustion chamber 1Y. In the configuration in which the next oxygen pressure reciprocating engine 3F is driven successively by the supply three-stage combustion or the four-stage combustion, the high-pressure high-temperature steam 5N of the inner or outer water-pressure gear engine 3N is supplied in the next driving process. In the same way as 3Z, the multistage water pressure gear engine 3N is interlocked with the multistage heating, and the rotation outputs are combined to drive the propeller 7A, the rotor blade 7B and the screw 7C. Various energy storage cycle coalescence engines and coalescence that make it possible to select the merging in the configuration, the simple liquid coalescence injection unit 80, the liquid water jet 80 or the liquid coalescence injection unit 80 optimum pressure part To the law.

  The liquid water suction water jet 80U drive in FIG. 13 will be described. The high pressure / high temperature steam chamber 5N is received from the electricity + liquid air cold heat + superheated steam temperature heat supply facility 3D of the vertical type moving blade water gravity turbine 8H power generation electric manufacturing. The superheated steam 50 is received and stored in the high-pressure and high-temperature combustion gas chamber 5M, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed to heat the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery, and liquid nitrogen and water injection respectively. The high-pressure high-temperature combustion gas chamber 5M and the high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 degrees are supplied, the steam control valve 5P open steam 50A is supplied to the superheated steam reservoir 95c, and the combustion gas control valve 24 is opened high pressure. The high temperature combustion gas 5M is supplied to the first stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated by the fuel injection one stage combustion from the fuel control valve 25b open fuel injection nozzle 6X. Two-stage fuel injection from the two-stage fuel injection nozzle 6X burns the inner peripheral 5N water vapor 50A, three-stage fuel injection from the three-stage fuel injection nozzle 6X three-stage combustion heats the inner peripheral outer circumference water vapor 50A, and the water vapor Steam 50A is injected from the injection nozzle 6Z, combustion gas 49 is injected from the combustion gas injection nozzle 6Y by water 52a, and the liquid water suction water jet 80U is used as a liquid water suction water jet 80U. The target is 100 times the combustion output, the target is 10 times the target jet propulsion, the same speed CO2 exhaust 1/10 fuel cost 1/10 the operating profit ratio is 10 times the existing ship, the liquid water suction water jet 80U, Various energy storage cycle coalescence engines and coalescence methods are used.

  The liquid water suction water jet 80X drive in FIG. 14 will be described. The high-pressure / high-temperature steam chamber 5N is received from the electricity + liquid air cold / superheated steam temperature / heat supply facility 3D of the vertical type moving blade water gravity turbine 8H power generation / electricity manufacturing. The superheated steam 50 is received and stored in the high-pressure and high-temperature combustion gas chamber 5M, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed to heat the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery, and liquid nitrogen and water injection respectively. The high-pressure high-temperature combustion gas chamber 5M and the high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 degrees are supplied, the steam control valve 5P open steam 50A is supplied to the superheated steam reservoir 95c, and the combustion gas control valve 24 open high The high temperature combustion gas 5M is supplied to the first stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated by the fuel injection one stage combustion from the fuel control valve 25b open fuel injection nozzle 6X. Two-stage fuel injection nozzle 6X performs two-stage fuel injection and heats 5N water vapor 50A on the inner and outer circumferences, and three-stage and four-stage fuel injection nozzles 6X perform fuel injection three-stage and four-stage combustion, respectively. Water vapor 50A is heated, water vapor 50A is injected from the water vapor injection nozzle 6Z, and combustion gas 49 is injected from the combustion gas injection nozzle 6Y by water 52a. Liquid water aiming at 1/600 with 100 times the output of ultra high pressure mass combustion, aiming at 10 times speed injection propulsion of the existing ship, the same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate 10 times that of the existing ship A suction water jet 80U is used, and various energy storage cycle coalescence engines and coalescence methods are used.

  The liquid air suction water jet 80S driving in FIG. 15 will be described. The high pressure / high temperature steam chamber 5N is received from the electricity + liquid air cold heat + superheated steam temperature heat supply facility 3D of the vertical type moving blade water gravity turbine 8H power generation electric manufacturing. The superheated steam 50 is received and stored in the high-pressure and high-temperature combustion gas chamber 5M, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed to heat the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery, and liquid nitrogen and water injection respectively. The high-pressure high-temperature combustion gas chamber 5M and the high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 degrees are supplied, the steam control valve 5P open steam 50A is supplied to the superheated steam reservoir 95c, and the combustion gas control valve 24 is opened high pressure. The high temperature combustion gas 5M is supplied to the first stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated by the fuel injection one stage combustion from the fuel control valve 25b open fuel injection nozzle 6X. Two-stage fuel injection from the two-stage fuel injection nozzle 6X burns the inner peripheral 5N water vapor 50A, and the three-stage fuel injection nozzle 6X heats the inner and outer peripheral water vapor 50A by three-stage fuel injection. Water vapor 50A is injected from the injection nozzle 6Z, combustion gas 49 is injected from the combustion gas injection nozzle 6Y, air 28a is sucked and injected into the water 52a, and the liquid air suction water jet 80S is used as the liquid air suction water jet 80S. Liquid air that aims at 1/600, 100 times the output of ultra-high pressure mass combustion, 10% speed target injection propulsion of the existing ship, the same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate 10 times that of the existing ship Various energy storage cycle coalescence engines and coalescence methods are used for the suction water jet 80S.

  The liquid air suction water jet 80T drive in FIG. 16 will be described. The high pressure / high temperature steam chamber 5N is received from the electricity + liquid air cold heat + superheated steam temperature heat supply facility 3D of the vertical type moving blade water gravity turbine 8H power generation electric manufacturing. The superheated steam 50 is received and stored in the high-pressure and high-temperature combustion gas chamber 5M, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed to heat the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery, and liquid nitrogen and water injection respectively. The high-pressure high-temperature combustion gas chamber 5M and the high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 degrees are supplied, the steam control valve 5P open steam 50A is supplied to the superheated steam reservoir 95c, and the combustion gas control valve 24 is open high pressure. The high temperature combustion gas 5M is supplied to the first stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated by the fuel injection one stage combustion from the fuel control valve 25b open fuel injection nozzle 6X. Two-stage fuel injection from the two-stage fuel injection nozzle 6X burns the inner peripheral 5N water vapor 50A, and the three-stage fuel injection nozzle 6X heats the inner and outer peripheral water vapor 50A by three-stage fuel injection. Four-stage fuel injection nozzle 6X fuel injection combustion in a plurality of locations of the air suction flow to heat the inner circumferential water vapor 50A, inject water vapor 50A from the water vapor injection nozzle 6Z, inject combustion gas 49 from the combustion gas injection nozzle 6Y, In each case, the air 28a is sucked and injected into the water 52a by suction injection, and the liquid air suction water jet 80S is set to aim at 100 times output of ultrahigh-pressure mass combustion with 1/600 of the compression work rate of air, and 10 times speed target injection of the existing ship. Propulsion, the same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate Targeting 10 times that of existing ships, liquid air suction water jet 80T, various To Nerugi save cycle combined institutions and coalescence method.

  The driving of the liquid air suction water jet 80Y in FIG. 17 will be described. The high pressure / high temperature steam chamber 5N is supplied from the electricity + liquid air cold heat + superheated steam temperature heat supply facility 3D of the vertical type moving blade water gravity turbine 8H power generation electric manufacturing. The superheated steam 50 is received and stored in the high-pressure and high-temperature combustion gas chamber 5M, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed to heat the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery, and liquid nitrogen and water injection respectively. The high-pressure high-temperature combustion gas chamber 5M and the high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 degrees are supplied, the steam control valve 5P open steam 50A is supplied to the superheated steam reservoir 95c, and the combustion gas control valve 24 is opened high pressure. The high temperature combustion gas 5M is supplied to the first stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated by the fuel injection one stage combustion from the fuel control valve 25b open fuel injection nozzle 6X. Two-stage fuel injection from the two-stage fuel injection nozzle 6X burns two stages of fuel injection and heats the 5N water vapor 50A on the inner and outer periphery. The water vapor 50A on the outer periphery is heated, the water vapor 50A is injected from the water vapor injection nozzle 6Z, the combustion gas 49 is injected from the combustion gas injection nozzle 6Y, and the air 28a is sucked and injected into the water 52a by suction injection, respectively. Water jet 80Y, air compression work rate of 1/600 and oxygen amount increase, super high pressure mass combustion 100 times output target, 10 times speed target injection propulsion of existing ship, same speed CO2 exhaust 1/10 fuel Cost 1/10 Operational profit ratio A liquid air suction water jet 80Y aimed at 10 times that of an existing ship, combined with various energy storage cycle coalescence engines and coalescence methods.

  The liquid air suction water jet 80Z drive of FIG. 18 will be described. The high pressure / high temperature steam chamber 5N is received from the electricity + liquid air cold heat + superheated steam temperature heat supply facility 3D of the vertical all blade water gravity turbine 8H power generation electric manufacturing. The superheated steam 50 is received and stored in the high-pressure and high-temperature combustion gas chamber 5M, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed to heat the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery, and liquid nitrogen and water injection respectively. The high-pressure high-temperature combustion gas chamber 5M and the high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 degrees are supplied, the steam control valve 5P open steam 50A is supplied to the superheated steam reservoir 95c, and the combustion gas control valve 24 is open high pressure. The high temperature combustion gas 5M is supplied to the first stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated by the fuel injection one stage combustion from the fuel control valve 25b open fuel injection nozzle 6X. Two-stage, three-stage, and four-stage fuel injection nozzles 6X burn fuel, two-stage, three-stage, and four-stage combustion heat 5N water vapor 50A on the inner and outer circumferences, and fuel injection five-stage from the fuel injection nozzle 6X that sucks the outer peripheral air 28a. The water vapor 50A on the inner circumference is heated by combustion, the water vapor 50A is injected from the water vapor injection nozzle 6Z, the combustion gas 49 is injected from the combustion gas injection nozzle 6Y, and the air 28a is sucked and injected by the water 52a by suction injection, respectively. Liquid air suction water jet 80Z, air compression work rate 1/600, oxygen amount increase, super high pressure mass combustion 100 times output target, 10% speed target injection propulsion of existing ship, same speed CO2 exhaust 1 / 10 Fuel Cost 1/10 Operating Profit Ratio Targeting 10 times that of existing ships, liquid air suction water jet 80Z, various energy storage cycle coalescence engine and coalescence method That.

  Referring to FIG. 19, the liquid combined injection unit 80W drive is received from the electricity + liquid air cold heat + superheated steam temperature supply facility 3D of the vertical type moving blade water gravity turbine 8H power generation electric manufacturing, and is supplied to the high pressure and high temperature steam chamber 5N. The superheated steam 50 is received and stored, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed in the high-pressure and high-temperature combustion gas chamber 5M, and the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery is heated. Addition is made selectable, a high-pressure high-temperature combustion gas chamber 5M or a high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 ° C. is supplied, and the steam control valve 5P open steam 50A is supplied to the superheated steam reservoir 95c. The combustion gas 5M is supplied to the first-stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated in the first-stage fuel injection from the fuel control valve 25b open fuel injection nozzle 6X, and the second-stage fuel injection is performed. Two-stage fuel injection from the nozzle 6X heats the 5N water vapor 50A on the inner periphery, three-stage fuel injection from the three-stage fuel injection nozzle 6X heats the water vapor 50A on the inner and outer periphery, and from the water vapor injection nozzle 6Z. Steam 50A is injected, combustion gas 49 is injected from the combustion gas injection nozzle 6Y, and air 28a is sucked and injected as a liquid coalescence injection unit 80W. The target is 100 times output, the target is 10 times the speed of the existing airplane, and the same speed CO2 exhaust 1/10 fuel cost is 1/10, and the operating profit ratio is 10 times that of the existing airplane. Various energy storage cycle coalescence engines and coalescence methods are used.

  Referring to FIG. 20, the combined liquid injection unit 80V drive is received from the electricity + liquid air cold heat + superheated steam temperature supply facility 3D of the vertical all-blade water gravity turbine 8H power generation electric manufacturing, and is supplied to the high pressure / high temperature steam chamber 5N. The superheated steam 50 is received and stored, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed in the high-pressure and high-temperature combustion gas chamber 5M, and the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery is heated. Addition is made selectable, a high-pressure high-temperature combustion gas chamber 5M or a high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 ° C. is supplied, and the steam control valve 5P open steam 50A is supplied to the superheated steam reservoir 95c. The combustion gas 5M is supplied to the first-stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated in the first-stage fuel injection from the fuel control valve 25b open fuel injection nozzle 6X, and the second-stage fuel injection is performed. Two-stage fuel injection from the nozzle 6X heats the inner peripheral 5N water vapor 50A, three-stage fuel injection from the three-stage fuel injection nozzle 6X heats the inner peripheral outer water vapor 50A, and the outer air 28a suction flow The fuel injection nozzle 6X burns four stages of fuel injection, the steam injection nozzle 6Z injects 50A of steam, the combustion gas 49 injects the combustion gas 49 from the combustion gas injection nozzle 6Y, and the liquid combined injection unit 80V Assuming that the compression work rate of air is 1/600 and the oxygen amount is increased, aiming at 100 times output of ultra-high pressure mass combustion, aiming at 10 times speed target injection propulsion of the existing airplane, the same speed CO2 exhaust 1/10 fuel cost 1/10 The operating profit rate is 10 times that of existing airplanes, and the liquid coalescence injection unit 80W is used, and various energy storage cycle coalescence engines and coalescence methods are used.

  21 will be described. The vertical combined rotor blade water gravity turbine 8H power generation electric manufacturing of the vertical type moving blade water gravity turbine 8H power generation electric production, received from the electricity + liquid air cold heat + superheated steam temperature supply equipment 3D, into the high pressure high temperature steam chamber 5N The superheated steam 50 is received and stored, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed in the high-pressure and high-temperature combustion gas chamber 5M, and the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery is heated. Addition is made selectable, and a high-pressure and high-temperature combustion gas chamber 5M or a high-pressure and high-temperature steam chamber 5N of about 50 to 200 MPa 500 ° C. is supplied to the superheated steam reservoir 95c. The combustion gas 5M is supplied to the first-stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated in the first-stage fuel injection from the fuel control valve 25b open fuel injection nozzle 6X, and the second-stage fuel injection is performed. Two-stage fuel injection from the nozzle 6X burns and heats the 5N water vapor 50A on the inner and outer circumferences. Similarly, three-stage and four-stage fuel injection nozzles 6X produce three-stage and four-stage fuel injections to produce the inner and outer water vapor 50A. After heating, 50 A of water vapor is injected from the water vapor injection nozzle 6Z, the combustion gas 49 is injected from the combustion gas injection nozzle 6Y, and the air 28a in front is sucked and injected to form the liquid combined injection unit 80E. The rate is 1/600 and the oxygen amount is increased, aiming at 100 times the output of ultra-high pressure mass combustion, aiming at 10 times the target jet injection of the existing aircraft, the same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate The liquid coalescence injection unit 80E is aimed at 10 times the energy storage cycle coalescence engine and the coalescence method.

  Referring to FIG. 22, the combined liquid injection unit 80F is driven by a vertical full-blade hydrogravity turbine 8H power generation electric manufacture, which receives electricity + liquid air cold heat + superheated steam temperature supply equipment 3D, and enters the high-pressure / high-temperature steam chamber 5N. The superheated steam 50 is received and stored, liquid nitrogen injection + liquid oxygen injection + fuel injection combustion is performed in the high-pressure and high-temperature combustion gas chamber 5M, and the high-pressure and high-temperature steam 5N on the outer periphery and inner periphery is heated. Addition is made selectable, a high-pressure high-temperature combustion gas chamber 5M or a high-pressure high-temperature steam chamber 5N of about 50 to 200 MPa 500 ° C. is supplied, and the steam control valve 5P open steam 50A is supplied to the superheated steam reservoir 95c. The combustion gas 5M is supplied to the first-stage combustion chamber 1Y, and the water vapor 50A on the outer periphery 5N is heated by the fuel injection one-stage combustion from the fuel control valve 25b open fuel injection nozzle 6X, and two stages, three stages, and four stages The fuel injection nozzle 6X burns the fuel injection in two stages, three stages, and four stages to heat the outer peripheral 5N water vapor 50A, and from the fuel injection nozzle 6X that sucks the outer air 28a, the fuel injection nozzle 6X burns the inner peripheral water vapor 50A. , The steam 50A is jetted from the steam jet nozzle 6Z, the combustion gas 49 is jetted from the combustion gas jet nozzle 6Y, and the air 28a is sucked and jetted to form the liquid combined jet section 80F. Is 1/600 or oxygen increase, super high pressure mass combustion is aimed at 100 times output, and 10 times speed target injection propulsion of existing airplane, same speed CO2 exhaust 1/10 fuel cost 1/10 operating profit rate Various energy storage cycle coalescence engines and coalescence methods are used, aiming at 10 times, to make the liquid coalescence injection unit 80F.

Theoretical best turbine power generation is a vertical all-blade water gravity turbine 8H power generation, and the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / sec. Eliminates the need for a furnace, greatly simplifies the structure and makes it possible to generate electricity 1700 times the amount of existing electricity, making it extremely easy to generate electricity, making it extremely inexpensive to prevent global warming with zero CO2 emissions and zero exhaust. Suppose that it is supplied from electricity + liquid air cold heat + superheated steam temperature heat supply equipment 3D of horizontal all blade hydrogravity turbine 8P power generation electricity production, for example, superheated steam temperature heat is injected into methane hydrate under permafrost land, Divided methane into hot water is recovered with chilled liquid methane, and superheated steam injection is continued forever.The methane recovery enclosure is kept at a suitable temperature for pasture grazing with many water droplets, and the entire permafrost zone is used as pasture. There is a possibility that the grazing flourish.

A full-scale blade hydrogravity turbine 8H fuel cost 0 power generation prevents the seawater temperature from rising by 7 degrees, prevents the artificial tsunami from becoming huge, and reduces the earthquake tsunami as much as possible, such as typhoons, seasonal winds, tornadoes, etc. It is possible to prevent an artificial increase in the updraft, prevent an increase in the downdraft, prevent droughts, torrential rains, abnormal dry wildfires, cold waves and heat waves from growing, and prevent global warming. There is sex.

The existing thermal power generation + nuclear power generation will raise the seawater temperature by 7 degrees, making it impossible for the natural phenomenon of supplying nutrients such as oxygen to the sea surface cooling seabed, reducing the number of fish and seaweed underwater foods as much as possible, By artificially enlarging seasonal winds, tornadoes, etc., the seawater wave head that is much easier than the air suction of the car is sucked into the air, and the heavy rain of the seawater becomes 10 times 100 times 1000 times that of the normal heavy rain, and it becomes an artificial maneuver. There is a possibility that anthropogenic mankind extinction, which reduces the land food of mankind to 0 by the mountain tsunami and salt coating that pushes all the greenery of the mountain, prevents the humankind extinction by preventing the sea water temperature from rising by 7 degrees.

Vertical full-blade hydrogravity turbine 8H is the liquid oxygen drive prime of electric power generation electric power generation, the existing gas air compression is liquid air compression or water compression, and the compression power is 1/600 or 1 / of that of existing gas turbines and reciprocating engines 1700, 10 times fuel 10 times pressure easy combustion, automobiles, ships and airplanes, fuel costs 1/10 automobiles and 10 times speed ships and airplanes. Supply CO2 to seawater, multiply microorganisms, phytoplankton, seaweeds, etc., increase food for humans such as fish and kombu through food chains, etc. There is a possibility of making a full use of space, such as flying around the earth 16 times a day, anywhere in the earth, and making a day trip anywhere on the earth.

0: Various energy storage cycle coalescing engine (various heat energy is compressed with a heat pump as air temperature, divided into high-pressure liquid air cold heat + superheated steam heat) Engine uniting means) 0: Various energy storage cycle coalescence engine and coalescence method (various thermal energy is heated by solar heat or geothermal heat, etc., air temperature is compressed and stored by heat pump compressed high pressure liquid air cold + superheated steam temperature, liquid under 500 When using metal, keep it warm with a heat retaining device. Use impact energy for turbine blades and small metal balls with recon resin coating or fluororesin coating to extend the working time. Combined engine and various energy combining means) 1: Generator, 1B: Pressure engine (oxygen pressure tooth) Engines, oxygen pressure reciprocating engines, water pressure gear engines, water pressure reciprocating engines, etc. that inject high-pressure liquids) 1C: alcohol, 1D: fuel injection pump, 1F: condensate pump, 1G: 1 to multistage heat pump ( 1H: Multistage combustion chamber (liquid oxygen and liquid nitrogen are separately compressed 50 to 200 MPa, combustion gas and nitrogen gas) The heat 50 is divided into the heat chamber 3B and the cold 28a is divided into the cold chamber 3A. 1Y: Fuel pipe (provided so that the fuel injection temperature becomes the optimum temperature) 1d: Mercury, 1g : Gravity accelerating part, 1h: Horizontal axis, 2: Solar heater (collects sunlight in a straight line with a long lens to heat the hot part forming intake air) 2a: Speeding up the natural phenomenon (change in air is almost zero) The leftovers are near 2a: Acceleration of natural phenomena (by generating cold water 28a mixed with seawater for power generation, supplying natural seawater to the ocean floor) Equipment that increases the supply of nutrients such as oxygen and CO2 and increases the amount of food such as fish and kombu. 2a: Accelerates natural phenomena (on ships, supplies nutrients such as nitrogen, oxygen, and CO2 into the sea. Increase phytoplankton, seaweed, etc., aiming for tens of thousands of times, increase food for humans such as fish and kombu through food chain, etc.) 2b: Low water resistance (low water resistance by jetting air + combustion gas + superheated steam to the bottom of the ship at high speed) 2c: heat insulating material, 2d: long lens (convex lens cross-section is extended into a rectangular shape, aiming at the maximum focal length by using multiple lenses) 2e: water surface, 2A: heat resistant material, 2B: heat absorbing material, 2C : ~ Multi-stage compression heat recovery unit (1 ~ Multi-stage heat pump, compression multiple times, multiple times as high temperature, 2C2X2Y2Z, aiming at infinite increase in mass pressure of cold heat + heat in a container for heat recovery multiple times) 2E: Specific material (alloy) Including 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 (Manufacturing method reduces impact energy at smaller diameters. For example, molten steel is injected into the air to produce ultra-small diameter steel balls by high-speed collision pulverization and air cooling water cooling.) 2E: Specific material (silicon resin coating or silicon resin coating Coated 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 Gold spheres and coated aluminum alloy spheres) 2F: Specific critical substance riser (gravity energy is increased and preserved) 2H: Cold seawater mixer (mixed cold water into seawater Natural heat-up process is used to cool superheated vaporization heat to condensate 2X: Air heat exchanger (the air is compressed with a heat pump to obtain a high temperature, heat recovery compressed air mass is infinitely increased or the pressure is infinitely increased) 2Y: Water heat exchanger (superheated steam production with high temperature air or combustion gas) 2Z: Specific material heat exchanger (used for temperature control of liquid metal below 500 degrees) 3a: Water repellent plating, 3A: Water repellent coating, 3D: Electricity + liquid air cooling + superheated steam heat supply equipment (cooling by gravity power generation electricity + Manufactures heat and supplies liquid oxygen and liquid nitrogen Drives automobiles, ships and airplanes and supplies with superheated steam Recovers methane injected into methane hydrate, etc. 3E: Specific critical material (low melting temperature alloy less than 500 degrees liquid and stable high temperature liquid alloy) 3F: Oxygen pressure reciprocating engine (injecting liquid oxygen, liquid nitrogen and fuel) Combustion 50-200 MPa combustion gas, fuel injection multistage combustion in the process of expansion to drive the multistage oxygen pressure reciprocating engine) 3H: reciprocating piston 3K: external gear 3L: multistage combustion chamber 3M: water pressure reciprocating engine (multistage oxygen) 3N: Water pressure gear engine (multistage oxygen pressure gear engine heats water and water vapor in multiple stages to drive the multistage water pressure gear engine) 3Z: Oxygen pressure gear engine (liquid oxygen, liquid nitrogen, and fuel injection combustion is used to produce 50 to 200 MPa combustion gas, and water and steam on the inner and outer circumferences are heated by multi-stage combustion and linked to the multi-stage water pressure gear engine. 3a: Water-repellent plating, 3b: Water-repellent coating, 4X: Turbine blade cross section (cross-sectional area is enlarged surface area increase) 5a: High-pressure and high-temperature combustion gas control valve, 5A: Supply valve, 5B: Cooling fin, 5C: Exhaust chamber 5D : Exhaust valve 5E: Supply chamber 5F: Oxygen heating chamber 5G: Steam heating chamber, 5H: Water heating chamber, 5K: Liquid oxygen, 5K: Liquid oxygen chamber, 5L: Liquid nitrogen, 5L: Liquid nitrogen chamber, 5M: High pressure High temperature combustion gas, 5M: High pressure high temperature combustion gas chamber, 5N: High pressure high temperature steam chamber, 5P: Steam control valve, 6A: Superheated steam injection nozzle, 6B: Compressed air injection nozzle, 6E: Specific critical material injection nozzle, 6W: Specific gravity Large material accelerator (Liquid specific material 3E pressure and specific gravity difference specific gravity material 3E and 2E mixed injection) 6X: Fuel injection nozzle, 6X: Afterburner (fuel injection cold heat 28a combustion in suction air flow) 6Y: Combustion gas injection nozzle (cooling 28a combustion flow) 6Z: Steam injection nozzle, 7A: Propeller, 7B: Rotary blade, 7C: Screw, 8c: Turbine blade (When the inner and outer turbine blades differ by 180 degrees in the rotational direction, each of them has the same shape and the same area as many turbine blades, and the best transition is made to the experiment.) 8H: Vertical-type all-blade turbine Same length screw assembly 9 Rotating blades that rotate in opposite directions to each other as rotation stoppers are fixed, and the best transition is achieved for experiments such as weight reduction. 8H: Vertical all-blade turbine (with cemented carbide or silicon resin coating) 8H: Vertical-type full blade hydrogravity turbine (existing steam turbine is a stationary blade and the damming output approaches 0 because all blades are essential, and the work rate is 1/3 that of platinum balls) .60,000 Because it is insignificant, it is essential to use gravity, which is a particularly important material, and air such as solar heated air is recovered by compressing heat with 1 to multiple-stage heat pump + compression heat recovery unit, and used for various storage turbine drives + various applications) 8H: Vertical type full-blade hydrogravity turbine (Used in the case of no heat drop when using thermal drive + cold drive, because the use head is limited) 9: Ring screw assembly for each paragraph, 10: Hull, 10A: Ship cabin, 10b: Cockpit, 10c: control room, 10d: guest room, 10e: cargo compartment, 11D: gas cooling room, 16B: vertical axis, 24: combustion gas control valve, 24A: compressed air control valve, 25: superheated steam control valve, 25b: fuel control valve, 28a: air, 28a: cold heat (compressed air 28a is compressed with a heat pump, and is heated and stored in the form of 50 heat of compressed air heat + compressed air 28a cold heat containing liquid oxygen and liquid nitrogen) 2 b: Calorific value of compressed air, 28A: Intake air passage, 28B: Air passage inlet, 38: Rotating guide, 38a: Flight trunk, 38b: Flight wing, 38c: Flight tail, 38d: Vertical wing, 38e: Blade leading edge , 38g: surface wing, 38h: floating boat, 38B: air suction jet ship (with 79S79T79Y79Z) 38C: water suction jet ship (with 79U79X) 39A: solar thermal gravity airplane, 39B: solar thermal gravity rotating airplane, 39C: solar thermal gravity helicopter, 39D: Screw ship, 39G: Solar gravity flying ship, 40A: Rudder, 49: Combustion gas, 50: Superheated steam, 50: Superheated steam chamber, 50: Warm heat (compressed air 28a is compressed by a heat pump and heated by compressed air 50A: Steam, 51: Air extractor, 51: Combined extraction (Extractor for joining) 51A: Air extraction chamber, 52a: Water, 52a: Deep sea water, 52b: High temperature water, 52d: Hot heat (change from 50) 52e: Cold heat (change from 28a) 55B: Transmission, 60A: Inner shaft device (equipment with turbine blades) 60B: Outer shaft device (equipment with turbine blades) 60C: Inner blade group (inner and outer rotations opposite) 60D: Outer blade group (inner and outer rotations opposite) 76: Gear device (including magnetic friction power transmission device) 77B: Semi-cylindrical outer case, 77F: Outer case outer case, 77G: Cylindrical rotating part, 77a: Turbine outer case, 78A: Combined engine injection part 78B: Combined engine injection unit (multiple fuel injection combustion to cold heat and super high pressure) Jetted 78V: Combined engine injection unit (multiple times of fuel injection for cold heat) 78V: Combined engine injection unit (multiple times of fuel injection to cold) 78W: Combined engine The liquid which has been burned and sprayed with ultra-high pressure is heated and injected several times from the inner periphery, outer periphery, and inner periphery, and is also injected into the air suction flow at multiple locations by fuel injection combustion injection) 79J: Water jet (multiple times of fuel for cold heat) 79S: Water jet (multiple times of fuel for cold heat) 79T: Water jet (multiple times fuel injection combustion to cold heat) 79T: Water jet (multiple times fuel injection combustion to cold) The liquid sprayed with ultra-high pressure 79H: Water jet (multiple times of fuel for cold heat) 79 U: Water jet (multiple times of fuel for cold heat) 79X: Water jet (super-high pressure injection by fuel injection combustion to cold heat multiple times) 79Y: Water jet (injection of ultra-high pressure fuel that has been injected into the cold multiple times with fuel injection and combustion) and sprayed to the inner circumference and inner circumference outer circumference 79Z: Water jet (heated by multiple injections of fuel into the cold and fired multiple times and heated by multiple times from the inner circumference and inner circumference outer circumference) Then spray and air suction 80: bearing, 80a: hydraulic levitation thrust bearing (air bearing air pressure is oil pressure, hydraulic pressure area is increased slightly, 80A: Joint, 80B: Fastener, 80E: Liquid coalescence injection part (High pressure high temperature combustion gas 5M High pressure high temperature steam chamber 5N is received and fuel is injected into 5M multiple times and burned 5N 80F: Liquid coalescence injection unit (receives high pressure high temperature combustion gas 5M high pressure high temperature steam chamber 5N and performs fuel injection combustion in 5M multiple times from the inner periphery and inner periphery outer periphery for injection by air injection) 5N is heated and injected several times from the inner and outer peripheries, fuel injection combustion injection is also performed at a plurality of locations of the air suction flow, and air suction injection is performed) 80V: Liquid combined injection section (high pressure high temperature combustion gas 5M high pressure Receive 5N high temperature steam chamber And 5N is heated and injected from the inner periphery, outer periphery, and inner periphery outer periphery multiple times, and fuel injection combustion injection is also performed at a plurality of locations of the air suction flow, and air suction injection is performed) 80W: Liquid coalescence injection part (high pressure high temperature combustion gas 5M receiving high pressure high temperature steam chamber 5N, fuel injection combustion in 5M multiple times, 5N is heated multiple times from the inner periphery, outer periphery and inner periphery outer periphery and injected, air 80S: Liquid air suction water jet (receives high pressure high temperature combustion gas 5M, high pressure high temperature steam chamber 5N, and injects and burns fuel 5M multiple times to heat 5N multiple times from the inner periphery, outer periphery, and inner periphery outer periphery) 80T: Liquid air suction water jet (receives high pressure high temperature combustion gas 5M high pressure high temperature steam chamber 5N and performs fuel injection combustion in 5M multiple times)

5N is heated and injected several times from the inner circumference, outer circumference, and inner circumference outer circumference, and fuel injection combustion injection is performed also at a plurality of locations of the air suction flow, and air suction injection is performed to suck and inject water) 80U: Liquid water suction Water jet (High-pressure high-temperature combustion gas 5M received high-pressure high-temperature steam chamber 5N, fuel-injected combustion into 5M multiple times, heated and injected 5N multiple times from the inner periphery, outer periphery, and inner and outer periphery, and sucked and injected water 80X: Liquid water suction water jet (high pressure high temperature combustion gas 5M receiving high pressure high temperature steam chamber 5N, fuel injection combustion in 5M multiple times, 5N is heated multiple times from the inner periphery and inner periphery outer periphery and injected, water 80Y: Liquid air suction water jet (receives high pressure high temperature combustion gas 5M high pressure high temperature steam chamber 5N, and injects and burns fuel 5M multiple times to heat 5N multiple times from the inner periphery and inner periphery outer periphery) Jetted and air 80Z: Liquid air suction water jet (receives high pressure high temperature combustion gas 5M, high pressure high temperature steam chamber 5N, and injects and burns 5M multiple times, 5N from the inner periphery and inner periphery outer periphery) Inject by heating several times and inject, and also inject and inject fuel into multiple locations of air suction flow, and inhale and inject air by sucking and injecting air. 84: Counter-rotating magnetic friction device (inner blade group with fixed part) 84Y: Counter-rotating gear device (same as in the existing technology) 95a: combustion gas reservoir, 95b: compressed air reservoir, 95c: superheated steam reservoir, 103: Cold energy recovery unit,

Claims (214)

  A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different Power generation of all blade hydrogravity turbine (8H) with wide slightly inclined O-ring additional hydraulic levitation thrust bearing (80a) and electricity + liquid air cold heat + superheated steam temperature supply equipment, various heat energy as air temperature heat pump Compressed and high pressure liquid air cold heat + superheated steam heat divided storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   A saddle type in which the work rate is set to 1700 times the water work rate of the existing steam turbine, and when the rotational direction is 180 degrees different, the inner rotor blade outer rotor blade is substantially the same turbine blade (8c) and the annular screw assembly per paragraph (9). Drives all-blade hydrogravity turbine (8H) to generate 1 to multi-stage heat pump (1G) power generation, and increases the amount of cold produced by electric drive 1 to multi-stage compression heat recovery unit (2C) + Superheated steam temperature + Liquid air cold heat supply equipment prime, various heat energy as air temperature, compressed by high pressure liquid air cold heat + superheated steam temperature heat with a heat pump Various energy storage cycle coalescence engines and coalescence methods used for acceleration acceleration.   A saddle type in which the work rate is set to 1700 times the water work rate of the existing steam turbine, and when the rotational direction is 180 degrees different, the inner rotor blade outer rotor blade is substantially the same turbine blade (8c) and the annular screw assembly per paragraph (9). Power generation and electric drive by all blade hydrogravity turbine (8H) to make 1 to multi-stage heat pump (1G) power generation, and cold production pressure increased by electric drive 1 to multi-stage compression heat recovery unit (2C) Ascending electricity + superheated steam temperature + liquid air cooling power supply equipment prime, various heat energy as air temperature compressed with high pressure liquid air cold heat + superheated steam temperature heat storage by using a heat pump Various energy storage cycle coalescence engines and coalescence methods used for acceleration of gravitational acceleration in vacuum.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. Electric generator driven by all blade hydro-gravity turbine (8H), increased heat and cold production by 1 stage heat pump (1G), further increased cold pressure by 2 to 2 stages heat pump (1G) Electric + superheated steam Heat energy + liquid air cold heat supply equipment is primed. Various heat energy is stored as air temperature by heat pump and compressed into high pressure liquid air cold heat + superheated steam heat. Gravity energy is increased. Various energy storage cycle coalescence engine and coalescence method.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. All-blade hydrogravity turbine (8H) power generation, equipped with electric drive 1-stage multi-stage compression heat recovery device (2C) and electric + liquid air cold heat + superheated steam temperature supply equipment to move propeller (7A) drive As a means, various heat energy is compressed by high pressure liquid air cold heat + superheated steam heat by air pump as air temperature. Use of energy storage is increased. Gravity energy is increased. Method.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. All rotor blades water gravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) equipped with electricity + liquid air cold heat + superheated steam temperature supply equipment to drive the rotor blade (7B) As a moving means, various heat energy is compressed and stored in a high-pressure liquid air cold heat + superheated steam temperature using a heat pump as air temperature. Gravity energy is increased. Merge method.   A saddle type in which the work rate is set to 1700 times the water work rate of the existing steam turbine, and when the rotational direction is 180 degrees different, the inner rotor blade outer rotor blade is substantially the same turbine blade (8c) and the annular screw assembly per paragraph (9). All-blade hydrogravity turbine (8H) power generation, equipped with electric drive 1-stage multi-stage compression heat recovery unit (2C) and electric + liquid air cold heat + superheated steam temperature supply equipment and moving to drive screw (7C) As a means, various heat energy is compressed by high pressure liquid air cold heat + superheated steam heat by air pump as air temperature. Use of energy storage is increased. Gravity energy is increased. Method.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multi-stage heat pump (1G) and heated and heated several times from the inner circumference and inner circumference outer circumference. Various heat energy is used as a moving means to drive the liquid coalesced jet part (80E) that injects and sucks and sucks air. The heat is compressed by the heat pump as the air temperature, divided into high pressure liquid air cold heat + superheated steam temperature. Various energy conservation cycle coalescence engine and coalescence method to use acceleration of gravity acceleration in storage jet vacuum.   A vertical all-blade hydrogravity turbine (8H) in which the power is set to 1700 times that of the existing steam turbine and the inner rotor blade outer rotor blade is substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multi-stage heat pump (1G) and heated and heated several times from the inner circumference and inner circumference outer circumference. Various heat energy is used as a moving means to drive the liquid combined injection unit (80F) that injects, injects and injects fuel into a plurality of locations of air suction flow, and sucks and injects air. Divided storage use for air cooling + superheated steam temperature / gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum, various energy storage cycle coalescing engine and coalescence method. A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multiple-stage heat pump (1G) and heated for multiple times from the inner circumference, outer circumference, and inner circumference outer circumference. As a moving means for driving the liquid combined injection unit (80V) that injects and injects the fuel into the air suction flow at several locations, and injects and sucks the air, various heat energies are compressed by the heat pump as the air temperature Liquid air cold heat + superheated steam temperature divided storage use ・ gravity energy rises storage spray acceleration of gravity acceleration in vacuum various energy storage cycle coalescence engine and coalescence method.
Body engine.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multiple-stage heat pump (1G) and heated for multiple times from the inner circumference, outer circumference, and inner circumference outer circumference. As a moving means to drive the liquid coalesced injection part (80W) that injects and injects air, various thermal energy is stored as air temperature by heat pump compressed by high pressure liquid air cold heat + superheated steam temperature Is ascending storage jet vacuum acceleration acceleration in gravity using various energy storage cycle coalescence engine and coalescence method.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multiple-stage heat pump (1G) and heated for multiple times from the inner circumference, outer circumference, and inner circumference outer circumference. The liquid air suction water jet (80S) driving means that injects and sucks and injects water to suck and eject water. Various heat energy is compressed as high-temperature liquid air by the heat pump as the air temperature + superheated steam temperature Divided storage use / gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   A vertical all-blade hydrogravity turbine (8H) in which the power is set to 1700 times that of the existing steam turbine and the inner rotor blade outer rotor blade is substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multiple-stage heat pump (1G) and heated for multiple times from the inner circumference, outer circumference, and inner circumference outer circumference. Various heat energy is air, which is a moving means for driving a liquid air suction water jet (80T) that injects and injects fuel into a plurality of locations of air suction flow, injects and injects fuel, and sucks and injects air. Compressed high-pressure liquid air cold heat + superheated steam temperature as the temperature is divided and used for storage / gravity energy is increased Storage injection Vacuum gravitational acceleration acceleration Use various energy storage cycle coalescence engine and coalescence method.   A vertical all-blade hydrogravity turbine (8H) in which the power is set to 1700 times that of the existing steam turbine and the inner rotor blade outer rotor blade is substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multiple-stage heat pump (1G) and heated for multiple times from the inner circumference, outer circumference, and inner circumference outer circumference. As a moving means to drive liquid water suction water jet (80U) to inject and suck water, various heat energy is stored as divided into air pressure, liquid air cold heat + superheated steam temperature heat with heat pump as air temperature Gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multi-stage heat pump (1G) and heated and heated several times from the inner circumference and inner circumference outer circumference. Liquid water suction water jet (80X) driving means that injects and injects water. Various heat energy is stored as air temperature by heat pump compressed by high pressure liquid air cold heat + superheated steam temperature heat Is ascending storage jet vacuum acceleration acceleration in gravity using various energy storage cycle coalescence engine and coalescence method.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multi-stage heat pump (1G) and heated and heated several times from the inner circumference and inner circumference outer circumference. Liquid air suction water jet (80Y) driven by jetting, air suction jetting and water sucking jetting, various heat energy is divided into air-temperature, compressed high-pressure liquid air cold + superheated steam temperature by heat pump Conservation use / gravity energy is increased storage injection vacuum acceleration of gravitational acceleration Use various energy conservation cycle coalescence engine and coalescence method.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multi-stage heat pump (1G) and heated and heated several times from the inner circumference and inner circumference outer circumference. Various heat energy as air temperature is used as a moving means to drive, liquid air suction water jet (80Z) that injects, injects and injects fuel into multiple locations of air suction flow, and sucks and injects water by air suction and injection Compressed high-pressure liquid air cold heat + superheated steam temperature with a heat pump and used for split storage. Gravity energy is increased storage injection. Gravity acceleration acceleration in vacuum. Various energy storage cycle merging engines and merging methods.   A saddle type in which the work rate is set to 1700 times the water work rate of the existing steam turbine, and when the rotational direction is 180 degrees different, the inner rotor blade outer rotor blade is substantially the same turbine blade (8c) and the annular screw assembly per paragraph (9). Electricity generated by all blade hydrogravity turbine (8H) + liquid air cooling + superheated steam temperature supply equipment to drive vehicles, various thermal energy is compressed as high temperature liquid air cooling heat with a heat pump as air temperature + Divided storage use for superheated steam temperature / gravity energy is increased storage injection Vacuum gravitational acceleration acceleration used various energy storage cycle coalescence engine and coalescence method.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. Vehicles are driven by electricity generated by all blade hydro-gravity turbine (8H). Various heat energy is stored as air temperature by heat pump and compressed into high pressure liquid air cold heat + superheated steam temperature. Various energy storage cycle coalescence engine and coalescence method to use acceleration of gravity acceleration in jet vacuum.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. Electricity is generated by a full blade hydrogravity turbine (8H), received from electricity + liquid air cold heat + superheated steam heat supply equipment, and cars are driven by a pressure engine + storage battery. Various heat energy is compressed by a heat pump as air temperature. Divided storage use of high-pressure liquid air cold heat + superheated steam heat ・ Gravity energy rises storage Injection Acceleration of gravitational acceleration in vacuum Various energy storage cycle coalescence engine and coalescence method.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. Electricity is generated by a full blade hydrogravity turbine (8H), received from electricity + liquid air cold heat + superheated steam heat supply equipment, and cars are driven by a pressure engine + storage battery. Various heat energy is compressed by a heat pump as air temperature. Divided storage use of high-pressure liquid air cold heat + superheated steam heat ・ Gravity energy rises storage Injection Acceleration of gravitational acceleration in vacuum Various energy storage cycle coalescence engine and coalescence method.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. Power is generated by all-blade hydrogravity turbine (8H), received from electricity + liquid air cold heat + superheated steam heat supply facility to drive ships using liquid air cold heat, various heat energy is compressed by high pressure with heat pump as air temperature Liquid air cold heat + superheated steam temperature divided storage use ・ gravity energy rises storage spray acceleration of gravity acceleration in vacuum various energy storage cycle coalescence engine and coalescence method.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. Power generated by all-blade water gravity turbine (8H), received from electricity + liquid air cold heat + superheated steam temperature heat supply facility, and liquid air ultra-high pressure jet to drive ships, various heat energy is heat pump as air temperature Compressed and high pressure liquid air cold heat + superheated steam heat divided storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multi-stage heat pump (1G) and heated and heated several times from the inner circumference and inner circumference outer circumference. Injecting and air-suction-injecting the liquid combined injection unit (80E) to drive various space-return airplanes, various heat energy is stored as air temperature by heat pump compressed by high pressure liquid air cold + superheated steam temperature Energy rising storage injection Vacuum acceleration acceleration in gravity Various energy storage cycle coalescence engine and coalescence method.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multi-stage heat pump (1G) and heated and heated several times from the inner circumference and inner circumference outer circumference. Injecting, fuel injection combustion injection into multiple air suction flows, and various space energy planes driven by liquid coalesced injection unit (80F) for air suction injection, various heat energy is compressed by heat pump as air temperature Divided storage use of high-pressure liquid air cold heat + superheated steam heat ・ Gravity energy rises storage Injection Acceleration of gravitational acceleration in vacuum Various energy storage cycle coalescence engine and coalescence method.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multiple-stage heat pump (1G) and heated for multiple times from the inner circumference, outer circumference, and inner circumference outer circumference. Injecting and injecting air into multiple places, fuel injection and combustion injection into various places, and make various space return airplanes driven by liquid combined injection part (80V) to inject and suck air, various heat energy is heat pump as air temperature Compressed and high pressure liquid air cold heat + superheated steam heat divided storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   A vertical all-blade water gravity turbine (8H) in which the work rate is set to 1700 times the water work rate of the existing steam turbine and the outer blades of the inner rotor blade are substantially the same turbine blade (8c) when the rotational direction is 180 degrees different. Liquid-cooled air-cooled ultra-high pressure injection mounted multiple times with an electric drive 1 to multiple-stage heat pump (1G) and heated for multiple times from the inner circumference, outer circumference, and inner circumference outer circumference. The various thermal energy is divided into the high pressure liquid air cold heat + superheated steam temperature heat by the heat pump as the air temperature. -Gravity energy is ascending storage jets Accelerating gravity acceleration in vacuum Various energy storage cycle coalescing engines and coalescing methods.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. All rotor blade water gravity turbine (8H) power generation, received from electric drive electricity + liquid air cold heat + superheated steam heat supply facility to make the prime use of home electric cold use heat, various heat energy as air temperature with heat pump Compressed high-pressure liquid air cold heat + superheated steam heat divided storage use ・ gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum use various energy storage cycle coalescence engine and coalescence method.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. It is an all-cooled water gravity turbine (8H) power generation, and it is produced by an electric drive 1 to multi-stage heat pump (1G) and received from electricity + liquid air cold heat + superheated steam heat supply equipment to produce ice in large quantities. Various heat energy is compressed as high-temperature liquid air cold heat + superheated steam temperature as air temperature by using a heat pump. Gravity energy is increased. Storage energy injection cycle. .   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. All-wheel blade hydrogravity turbine (8H) power generation is received by electric drive 1 to multi-stage heat pump (1G) from manufacturing electricity + liquid air cold heat + superheated steam temperature supply facility, and methane hydrate is recovered in methane hydrate Use of isothermal heat, use of cold energy, heat energy is stored as air temperature by a heat pump, split into high pressure liquid air cold heat + superheated steam heat Cycle coalescence engine and coalescence method.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. It is an all-blade hydrogravity turbine (8H) power generation, and it receives electricity from electricity-driven electricity + liquid air cold heat + superheated steam heat supply equipment, and uses the heat pump as the air temperature. Compressed high-pressure liquid air cold heat + superheated steam heat divided storage use ・ gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum use various energy storage cycle coalescence engine and coalescence method.   A saddle type with a work rate of 1700 times that of an existing steam turbine, and an inner rotor blade outer rotor blade having substantially the same shape as the turbine blade (8c) and per-stage annular screw assembly (9) when the rotational direction is 180 degrees different. It is an all-blade hydrogravity turbine (8H) power generation, and it receives electricity from electricity-driven electricity + liquid air cold heat + superheated steam heat supply equipment, and uses the heat pump as the air temperature. Compressed high-pressure liquid air cold heat + superheated steam heat divided storage use ・ gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum use various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive Electricity, liquid air cooling heat, superheated steam temperature supply equipment, and the various heat energy received from liquid air cooling driven automobiles is stored as air temperature by heat pump compressed with high pressure liquid air cooling heat + superheated steam temperature Energy rising storage injection Vacuum acceleration acceleration in gravity Various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive Various heat energy received from the electricity + liquid air cold heat + superheated steam temperature supply equipment and made into liquid air ultra high pressure injection drive automobiles is divided and stored as air temperature compressed into high pressure liquid air cold heat + superheated steam temperature with a heat pump -Gravity energy is ascending storage jets Accelerating gravity acceleration in vacuum Various energy storage cycle coalescing engines and coalescing methods.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive Electric heat, liquid air cooling heat + superheated steam temperature supply equipment, and use it as a means of transport using liquid air cooling heat. Various heat energy is stored as air temperature divided into high pressure liquid air cooling heat + superheated steam temperature using a heat pump. Gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive Electricity, liquid air cooling heat + superheated steam heat supply facility to use as ship driving means, various heat energy is stored as air temperature by heat pump compressed with high pressure liquid air cold heat + superheated steam heat Is ascending storage jet vacuum acceleration acceleration in gravity using various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive Of electricity + liquid air cold heat + superheated steam heat supply equipment and use it as airplane drive means, various heat energy is stored as air temperature by heat pump compressed with high pressure liquid air cold heat + superheated steam heat Is ascending storage jet vacuum acceleration acceleration in gravity using various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive Of electricity + liquid air cold heat + superheated steam temperature heat supply equipment, and use it as a heat generation power utilization means using cold heat, and various heat energy is divided into liquid air cold heat + superheated steam heat compressed by a heat pump as air temperature Conservation use / gravity energy is increased storage injection vacuum acceleration of gravitational acceleration Use various energy conservation cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive Electric heat, liquid air cooling heat + superheated steam temperature supply equipment, and use it as a means of transport using liquid air cooling heat. Various heat energy is stored as air temperature divided into high pressure liquid air cooling heat + superheated steam temperature using a heat pump. Gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive Electricity, liquid air cooling heat + superheated steam heat supply facility to use as ship driving means, various heat energy is stored as air temperature by heat pump compressed with high pressure liquid air cold heat + superheated steam heat Is ascending storage jet vacuum acceleration acceleration in gravity using various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive Of electricity + liquid air cold heat + superheated steam heat supply equipment and use it as airplane drive means, various heat energy is stored as air temperature by heat pump compressed with high pressure liquid air cold heat + superheated steam heat Is ascending storage jet vacuum acceleration acceleration in gravity using various energy storage cycle coalescence engine and coalescence method.   Increased and stored by the specific material riser (2F), and accelerated the gravity acceleration in the specific material accelerator (6W) water (3E) high-pressure injection vacuum in the high-pressure jet, and driven by the vertical blade dynamic gravity turbine (8H) power generation. Driven by electricity + liquid air cooling + superheated steam temperature supply equipment to make liquid air cooling driven automobiles, various heat energy is divided into air pressure and compressed high pressure liquid air cooling + superheated steam temperature using a heat pump -Gravity energy is ascending storage jets Accelerating gravity acceleration in vacuum Various energy storage cycle coalescing engines and coalescing methods.   Increased and stored by the specific material riser (2F), and accelerated the gravity acceleration in the specific material accelerator (6W) water (3E) high-pressure injection vacuum in the high-pressure jet, and driven by the vertical blade dynamic gravity turbine (8H) power generation. Driven electricity + liquid air cold heat + superheated steam heat supply equipment to receive and use cold heat using electricity, various heat energy is stored as air temperature compressed by a high pressure liquid air cold heat + superheated steam heat using a heat pump -Gravity energy is ascending storage jets Accelerating gravity acceleration in vacuum Various energy storage cycle coalescing engines and coalescing methods.   Increased and stored by the specific material riser (2F), and accelerated the gravity acceleration in the specific material accelerator (6W) water (3E) high-pressure injection vacuum in the high-pressure jet, and driven by the vertical blade dynamic gravity turbine (8H) power generation. Driven electricity + liquid air cold heat + superheated steam temperature supply equipment and used as a ship drive means, various heat energy is divided into air pressure and compressed high pressure liquid air cold heat + superheated steam temperature using a heat pump Energy rising storage spraying Vacuum acceleration acceleration in gravity Various energy storage cycle coalescing engine and coalescence method.   Increased and stored by the specific material riser (2F), and accelerated the gravity acceleration in the specific material accelerator (6W) water (3E) high-pressure injection vacuum in the high-pressure jet, and driven by the vertical blade dynamic gravity turbine (8H) power generation. Driven electricity + liquid air cold heat + superheated steam temperature supply equipment and used as airplane drive means, various heat energy is stored as air temperature by heat pump compressed with high pressure liquid air cold heat + superheated steam temperature Energy rising storage injection Vacuum acceleration acceleration in gravity Various energy storage cycle coalescence engine and coalescence method.   A rectangular long lens (2d), a solar heater (2), which collects sunlight in a straight line and collects the light in a straight line to reduce the focal length. ) To recover the intake and compression heat, to generate a vertical all-blade hydrogravity turbine (8H) power generation, which is received from electric drive electricity + liquid air cold heat + superheated steam temperature heat supply equipment to make liquid air cold drive vehicles The energy is divided into a high-pressure liquid air cold heat + superheated steam heat energy compressed by a heat pump as the air temperature, and the gravitational energy is increased storage injection.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Refrigerant suction heat recovery, vertical driven blade water gravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply equipment to use cold heat utilization heat utilization, various heat energy is air Compressed high-pressure liquid air cold heat + superheated steam temperature as the temperature is divided and used for storage / gravity energy is increased Storage injection Vacuum gravitational acceleration acceleration Use various energy storage cycle coalescence engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Refrigerant suction heat recovery, vertical-type full-blade water gravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam temperature heat supply equipment and use as a ship drive means, various heat energy as air temperature Compressed high-pressure liquid air cold heat + superheated steam temperature with a heat pump and used for split storage. Gravity energy is increased storage injection. Gravity acceleration acceleration in vacuum. Various energy storage cycle merging engines and merging methods.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Refrigerant suction heat recovery, vertical type blade hydrogravity turbine (8H) power generation electricity driven electricity + liquid air cold heat + superheated steam temperature supply equipment to make aircraft driving means, various thermal energy as air temperature Compressed high-pressure liquid air cold heat + superheated steam temperature with a heat pump and used for split storage. Gravity energy is increased storage injection. Gravity acceleration acceleration in vacuum. Various energy storage cycle merging engines and merging methods.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Various heat energies that are recovered from suction compression heat and received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply equipment and used as various moving means of cold heat power operation The air temperature is a heat pump compressed by high pressure liquid air cold heat + superheated steam heat divided and used for storage. Gravity energy rises storage.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Refrigerant suction heat recovery, vertical driven blade water gravity turbine (8H) power generation electricity driven by electricity + liquid air cold heat + superheated steam temperature supply equipment to make cold electricity factory prime, various thermal energy is air temperature Compressed high-pressure liquid air cold heat + superheated steam heat with a heat pump as storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Refrigerant suction compression heat recovery, vertical-type moving blade water gravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment to make the home electric power prime, various heat energy is air temperature Compressed high-pressure liquid air cold heat + superheated steam heat with a heat pump as storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet-compressed heat recovery, vertical-type full-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply equipment to receive ultra high pressure liquid air cold injection fuel injection combustion pressure engine drive Various heat energy to be used as various means of transportation, heat energy is compressed with a heat pump as air temperature, divided into high pressure liquid air cold heat + superheated steam heat, and used to save gravity energy. And coalescing method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Ultra-high pressure liquid air cold injection fuel injection combustion multiple combustion pressure engine with intake compression heat recovery, receiving from a vertical all-blade water gravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam heat supply facility Driven into various transportation means, various heat energy is stored as air temperature by heat pump, divided into high pressure liquid air cold heat + superheated steam heat, and used as gravity energy. Cycle coalescence engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet-compressed heat recovery, vertical-type full-blade water gravity turbine (8H) power generation electricity-driven electricity + liquid air cold heat + superheated steam temperature heat supply facility receive ultra high pressure liquid air cold heat injection fuel injection combustion multiple combustion water Multiple times of heating each time the pressure engine is driven to make various transportation means, various heat energy is stored as air temperature by heat pump, compressed into high pressure liquid air cold heat + superheated steam temperature, and used. Gravity energy rises storage jet gravity in vacuum Various energy storage cycle coalescence engines and coalescence methods used for acceleration acceleration.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet-compressed heat recovery, vertical-type full-blade hydrogravity turbine (8H) power generation electric drive electric + liquid air cold heat + superheated steam temperature heat supply facility received ultra-high pressure liquid air cold injection fuel injection combustion multiple combustion outer periphery Water is heated several times to drive the pressure engine to make various transportation means, various heat energy is stored as air temperature by heat pump, compressed into high pressure liquid air cold heat + superheated steam temperature heat storage, gravity energy rises storage jet vacuum Various energy storage cycle coalescence engine and coalescence method used for medium gravity acceleration acceleration.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet-compressed heat recovery, vertical all-blade hydrogravity turbine (8H) power generation electricity driven by electric + liquid air cold heat + superheated steam temperature supply facility, ultra-high pressure liquid air cold heat injection fuel injection combustion multiple combustion inner circumference The water is heated several times to drive the pressure engine to make various transport means, various heat energy is stored as air temperature by heat pump, compressed into high pressure liquid air cold heat + superheated steam temperature, and the gravitational energy rises storage jet Various energy storage cycle coalescence engines and coalescence methods used for acceleration of gravitational acceleration in vacuum.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet-compressed heat recovery, vertical all-blade hydrogravity turbine (8H) power generation electricity driven by electric + liquid air cold heat + superheated steam temperature supply facility, ultra-high pressure liquid air cold heat injection fuel injection combustion multiple combustion inner circumference The outer periphery water is heated several times to drive the pressure engine to make various transportation means, various heat energy is stored as air temperature by heat pump, compressed into high pressure liquid air cold heat + superheated steam temperature, and used. Gravity energy rises and stored Various energy storage cycle coalescence engine and coalescence method to use acceleration of gravity acceleration in jet vacuum.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Recovering suction compression heat, and using a vertical-type full-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment prime, various heat energy is compressed by high pressure liquid with a heat pump as air temperature Divided storage use for air cooling + superheated steam temperature / gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum, various energy storage cycle coalescing engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet / compressed heat recovered electricity + liquid air cold heat + superheated steam temperature heat supply equipment liquid air cold heat, fuel injection combustion multiple times and liquid injected by ultra high pressure injection multiple times from the inner circumference, outer circumference and inner circumference outer circumference Liquid water suction water jet (80U) that heats and injects and sucks and injects water, and various heat energy is stored as air temperature by heat pump compressed into high pressure liquid air cold heat + superheated steam temperature use Various energy conservation cycle coalescence engine and coalescence method to use acceleration of gravity acceleration in storage jet vacuum.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Heat recovered from suction and compression heat + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply facility Ultra high pressure injection multiple times fuel injection combustion and super high pressure injected liquid is heated multiple times from the inner circumference and inner circumference outer circumference Liquid water suction water jet (80X) that sucks and injects water, and heat energy is divided into a high-pressure liquid air cold heat + superheated steam temperature with a heat pump as air temperature. Various energy storage cycle coalescence engines and coalescence methods used for acceleration of gravitational acceleration in vacuum.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet / compressed heat recovered electricity + liquid air cold heat + superheated steam temperature heat supply equipment liquid air cold heat, fuel injection combustion multiple times and liquid injected by ultra high pressure injection multiple times from the inner circumference, outer circumference and inner circumference outer circumference Liquid air suction water jet (80S) that heats and injects, sucks and injects air to suck and injects water, and various heat energies are divided into air pressure and compressed high pressure liquid air cold + superheated steam temperature -Gravity energy is ascending storage jets Accelerating gravity acceleration in vacuum Various energy storage cycle coalescing engines and coalescing methods.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet / compressed heat recovered electricity + liquid air cold heat + superheated steam temperature heat supply equipment liquid air cold heat, fuel injection combustion multiple times and liquid injected by ultra high pressure injection multiple times from the inner circumference, outer circumference and inner circumference outer circumference Heating and jetting, fuel suction and combustion jets at multiple locations of air suction flow, liquid air suction water jet (80T) that sucks and jets water by air suction, and various heat energy is heat pump as air temperature Compressed and high pressure liquid air cold heat + superheated steam heat divided storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Heat recovered from suction and compression heat + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply facility Ultra high pressure injection multiple times fuel injection combustion and super high pressure injected liquid is heated multiple times from the inner circumference and inner circumference outer circumference Liquid air suction water jet (80Y) that sucks and jets air by sucking and jetting air, and various thermal energy is stored as air temperature by heat pump compressed into high pressure liquid air cold heat + superheated steam temperature Energy rising storage injection Vacuum acceleration acceleration in gravity Various energy storage cycle coalescence engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Heat recovered from suction and compression heat + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply facility Ultra high pressure injection multiple times fuel injection combustion and super high pressure injected liquid is heated multiple times from the inner circumference and inner circumference outer circumference The air suction flow is also injected into multiple locations, fuel injection combustion injection is made into a liquid air suction water jet (80Z) that sucks and injects air, and various heat energy is compressed by a heat pump as the air temperature Divided storage use of high-pressure liquid air cold heat + superheated steam heat ・ Gravity energy rises storage Injection Acceleration of gravitational acceleration in vacuum Various energy storage cycle coalescence engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Heat recovered from suction and compression heat + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply facility Ultra high pressure injection multiple times fuel injection combustion and super high pressure injected liquid is heated multiple times from the inner circumference and inner circumference outer circumference Injected into the liquid combined injection unit (80E) that injects and sucks air, and various heat energy is stored as air temperature by a heat pump, divided into compressed high pressure liquid air cold heat + superheated steam temperature heat. Various energy storage cycle coalescence engines and coalescence methods used for acceleration of gravity acceleration.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Heat recovered from suction and compression heat + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply facility Ultra high pressure injection multiple times fuel injection combustion and super high pressure injected liquid is heated multiple times from the inner circumference and inner circumference outer circumference Injecting and injecting fuel into multiple locations, fuel injection combustion injection into a plurality of places into a liquid coalescence injection unit (80F) that injects and injects air, and various types of thermal energy are compressed as high-temperature liquid air cold / superheated by a heat pump as air temperature Divided storage use for steam heat / gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet / compressed heat recovered electricity + liquid air cold heat + superheated steam temperature heat supply equipment liquid air cold heat, fuel injection combustion multiple times and liquid injected by ultra high pressure injection multiple times from the inner circumference, outer circumference and inner circumference outer circumference Heating and jetting, fuel jet combustion injection at several places of air suction flow, and liquid combined injection part (80V) for air suction and jetting, and various heat energy is compressed as high-temperature liquid air by a heat pump as air temperature + Divided storage use for superheated steam temperature / gravity energy is increased storage injection Acceleration of gravity acceleration in vacuum, various energy storage cycle coalescence engine and coalescence method.   A rectangular gravity lens (2d) is stacked on top of each other to collect sunlight in a straight line to reduce the focal length and heat insulation. Inlet / compressed heat recovered electricity + liquid air cold heat + superheated steam temperature heat supply equipment liquid air cold heat, fuel injection combustion multiple times and liquid injected by ultra high pressure injection multiple times from the inner circumference, outer circumference and inner circumference outer circumference Heated and jetted into a liquid coalescence jet (80W) that injects and sucks air, and various heat energies are divided into a high-pressure liquid air cold heat + superheated steam temperature using a heat pump as the air temperature. Various energy storage cycle coalescence engines and coalescence methods used for acceleration of gravitational acceleration in vacuum.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside The liquid heat suction water jet (80U) is heated and sprayed from the circumference, outer circumference, and inner circumference outer circumference multiple times, and is converted into a liquid water suction water jet (80U) that sucks and jets water. Divided storage use for steam heat / gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside Various heat energy is compressed by a heat pump as the air temperature and heated by jetting by heating multiple times from the outer circumference and inner circumference outer circumference, and water is sucked and jetted (80X). Divided storage use / gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside It is heated multiple times from the circumference, outer circumference, and inner circumference outer circumference, sprayed, and air suction jet to make liquid air suction water jet (80S) that sucks and jets water. Liquid air cold heat + superheated steam heat divided storage use / gravity energy rising storage spray vacuum acceleration acceleration of various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside A liquid air suction water jet (80T) that is heated and injected several times from the circumference, outer circumference, and inner circumference outer circumference, and that also injects and injects fuel into a plurality of locations of air suction flow and sucks and injects water by air suction and injection. The various heat energy is divided into the high pressure liquid air cold heat + superheated steam heat as the air temperature by the heat pump. United way.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside Liquid air suction water jet (80Y) that heats and injects multiple times from the circumference and inner circumference outer circumference, and sucks and jets air to suck and jet water. Various thermal energy is compressed by a heat pump as air temperature. Divided storage use for cold heat + superheated steam temperature. Gravity energy is increased. Storage energy injection cycle.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside It is heated and injected a plurality of times from the circumference and the inner circumference outer circumference, fuel injection combustion injection is also carried out at a plurality of air suction flows, and a liquid air suction water jet (80Z) that sucks and injects water by air suction and injection, Various heat energy is compressed by high-pressure liquid air cold heat + superheated steam heat as air temperature, and is stored separately. Gravity energy is increased. Law.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside Various heat energy is divided into a high-pressure liquid air cooling heat + superheated steam temperature heat by a heat pump as air temperature, which is heated and injected multiple times from the outer circumference and inner circumference outer circumference to make a liquid merged injection section (80E) that sucks and injects air. Conservation use / gravity energy is increased storage injection vacuum acceleration of gravitational acceleration Use various energy conservation cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside Heating and injecting multiple times from the circumference and inner and outer circumferences, and fuel injection / combustion injection at a plurality of locations of air suction flow to form a liquid coalescence injection unit (80F) for air suction injection. Compressed high-pressure liquid air cold heat + superheated steam temperature with a heat pump and used for split storage. Gravity energy is increased storage injection. Gravity acceleration acceleration in vacuum. Various energy storage cycle merging engines and merging methods.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside Heat is injected several times from the circumference, outer circumference, and inner circumference outer circumference, and fuel is injected into a plurality of locations of the air suction flow, and the liquid combined injection section (80 V) for air suction injection is used. Compressed high-pressure liquid air cold heat + superheated steam temperature as the temperature is divided and used for storage / gravity energy is increased Storage injection Vacuum gravitational acceleration acceleration Use various energy storage cycle coalescence engine and coalescence method.   Elevated and stored in the specific material riser (2F), and the specific material accelerator (6W) water (3E) spray acceleration of gravity acceleration in the vacuum to drive a vertical all blade hydrogravity turbine (8H) power generation, electric drive 1 to multi-stage compression heat recovery device (2C) of electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injected liquid inside Various heat energies are compressed by a heat pump as the air temperature and heated by a plurality of times from the circumference, outer circumference, and inner circumference outer circumference, sprayed, and air sucked and ejected. Divided storage use / gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and sprayed from the inner circumference, outer circumference, and inner circumference outer circumference multiple times to form a liquid water suction water jet (80 U) that sucks and jets water. Divided storage use for cold heat + superheated steam temperature. Gravity energy is increased. Storage energy injection cycle.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid is heated multiple times from the inner and outer peripheries and sprayed to form a liquid water suction water jet (80X) that sucks and jets water. Divided storage use for superheated steam temperature / gravity energy is increased storage injection Vacuum gravitational acceleration acceleration used various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and sprayed from the inner circumference, outer circumference, and inner circumference outer circumference several times, and the air is sucked and ejected into a liquid air suction water jet (80S) that sucks and jets water. Compressed high-pressure liquid air cold heat + superheated steam heat divided storage use ・ gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid air suction water jet that heats and injects liquid several times from the inner circumference, outer circumference, and inner circumference outer circumference, and also injects and injects fuel into a plurality of locations of air suction flow and sucks and injects water by air suction and injection ( 80T), various heat energy is stored as air temperature by heat pump, divided into high pressure liquid air cold heat + superheated steam heat, and stored as gravitational energy Cycle combined institutions and coalescence method.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid is heated multiple times from the inner and outer peripheries and sprayed, and air suction jet and liquid air suction water jet (80Y) that sucks and jets water, and various heat energy is compressed by a heat pump as air temperature Liquid air cold heat + superheated steam temperature divided storage use ・ gravity energy rises storage spray acceleration of gravity acceleration in vacuum various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid air suction water jet (80Z) that heats and injects liquid several times from the inner and outer peripheries, injects and injects fuel into multiple air suction flows, and sucks and injects water by air suction and injection Various heat energy is divided into air pressure, compressed by high pressure liquid air cold heat + superheated steam heat as air temperature. Gravity energy rises. Saves energy. Union organizations and coalescence method.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated multiple times from the inner and outer peripheries and sprayed into the liquid coalesced jet section (80E) that sucks and jets air. Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and injected several times from the inner circumference and inner circumference outer circumference, and the various thermal energies are made into the liquid combined injection section (80F) that injects and injects the fuel into the air suction flow at a plurality of locations and sucks and injects the air. Various energy storage cycle coalescence engines and coalescence methods that use air pressure compressed by high pressure liquid air cold heat + superheated steam heat as the air temperature, and use the energy of gravity ascending and accelerating gravitational acceleration in vacuum.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Various heats that heat and inject liquid several times from the inner periphery, outer periphery, and inner and outer periphery, and make a liquid combined injection unit (80V) that injects and injects fuel into multiple locations of air suction flow to inject and suck air The energy is divided into a high-pressure liquid air cold heat + superheated steam heat energy compressed by a heat pump as the air temperature, and the gravitational energy is increased storage injection.   Specimen material riser (2F) rises around 500 meters, then saves the grave material accelerator (6W), water (3E), accelerates gravity acceleration in vacuum, and drives a vertical all-blade water gravity turbine (8H) power generation Electric-driven 1 to multiple-stage compression heat recovery unit (2C) Electric + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated multiple times from the inner circumference, outer circumference, and inner circumference and outer circumference to form a liquid combined jet section (80 W) that sucks and jets air. Divided storage use for superheated steam temperature / gravity energy is increased storage injection Vacuum gravitational acceleration acceleration used various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and sprayed from the inner circumference, outer circumference, and inner circumference outer circumference several times to form a liquid water suction water jet (80U) that sucks and jets water. Divided storage use for air cooling + superheated steam temperature / gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum, various energy storage cycle coalescing engine and coalescence method.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and sprayed from the inner periphery and the outer periphery a plurality of times to form a liquid water suction water jet (80X) that sucks and injects water. + Divided storage use for superheated steam temperature / gravity energy is increased storage injection Acceleration of gravity acceleration in vacuum, various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and sprayed several times from the inner circumference, outer circumference and inner circumference outer circumference, and it is made into a liquid air suction water jet (80S) that sucks and jets water to suck and jet water. Compressed and high pressure liquid air cold heat + superheated steam heat divided storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid air suction water jet that heats and injects the liquid several times from the inner circumference, outer circumference, and inner circumference outer circumference, and also injects and injects fuel into multiple air suction flows and sucks and injects water (80T), various heat energy is stored as air temperature by heat pump compressed high pressure liquid air cold heat + superheated steam heat Exist cycle combined institutions and coalescence method.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and sprayed several times from the inner and outer peripheries, and is air-injected to form a liquid air suction water jet (80Y) that sucks and jets water. Divided storage use of high-pressure liquid air cold heat + superheated steam heat ・ Gravity energy rises storage Injection Acceleration of gravitational acceleration in vacuum Various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid air suction water jet (80Z) that heats and injects the liquid several times from the inner periphery and inner periphery outer periphery, and also injects and injects fuel into multiple air suction flow locations, and sucks and injects water by air suction and injection ), The heat energy is compressed and stored in a high-pressure liquid air cold heat + superheated steam heat as the air temperature, and the gravitational energy is increased. Kuru union organizations and coalescence method.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and sprayed from the inner circumference and inner circumference outer circumference several times to form a liquid combined jet section (80E) that sucks and jets air. Divided storage use for steam heat / gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Various heat energies that are heated and sprayed multiple times from the inner and outer peripheries, and into a liquid coalesced jet (80F) that injects and injects fuel into multiple locations of air suction flow and sucks and injects air The air temperature is a heat pump compressed by high pressure liquid air cold heat + superheated steam heat divided and used for storage. Gravity energy rises storage.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Various liquids that are heated and injected several times from the inner periphery, outer periphery, and inner periphery outer periphery, and are also injected into the air suction flow at several locations to form a liquid combined injection unit (80 V) for air suction injection Heat energy is compressed by high-pressure liquid air cold heat + superheated steam temperature as air temperature and stored separately. Gravity energy is increased storage injection. Acceleration of gravitational acceleration in vacuum. Various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 400 meters, and saves by accelerating gravitational acceleration in high pressure jet vacuum (6W) water (3E) water (3E) Electricity, 1 to multiple stage compression heat recovery unit (2C) of electric drive, electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and sprayed from the inner circumference, outer circumference and inner circumference outer circumference several times to form a liquid merged jet section (80 W) that sucks and jets air. + Divided storage use for superheated steam temperature / gravity energy is increased storage injection Acceleration of gravity acceleration in vacuum, various energy storage cycle coalescence engine and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, sets it as a vertical all blade hydrogravity turbine (8H) power generation, receives it from electric drive electricity + liquid air cold heat + superheated steam temperature supply equipment, and makes liquid air cold drive vehicles. Various energy storage cycle coalescence engine and coalescence method that uses heat energy pump divided by high-pressure liquid air cold heat + superheated steam heat as air temperature, gravity energy rises and saves and accelerates gravitational acceleration in vacuum.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, receives from a vertical-type full-blade water gravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature supply facility, and makes it a liquid air cold heat transportation means Various energy storage cycle coalescence engines and coalescence methods that use heat energy as air temperature divided by heat pump compressed high pressure liquid air cold heat + superheated steam heat, and gravitational energy rises and accelerates gravity acceleration in vacuum.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Recovers suction compression heat, and receives heat from a vertical all-blade hydrogravity turbine (8H) power generation electricity drive + liquid air cold heat + superheated steam temperature heat supply equipment to make a ship drive means various heat energy The air temperature is a heat pump compressed by high pressure liquid air cold heat + superheated steam heat divided and used for storage. Gravity energy rises storage.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Recovers suction compression heat, and receives heat from a vertical-type all-blade water gravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam temperature heat supply equipment to make airplane drive means various heat energy The air temperature is a heat pump compressed by high pressure liquid air cold heat + superheated steam heat divided and used for storage. Gravity energy rises storage.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat and receives it from a vertical-type full-blade water gravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply equipment to make various moving means of cold heat temperature electric drive , Various energy storage cycle coalescence engine and coalescence method, using various heat energy as air temperature divided by heat pump compressed high pressure liquid air cold heat + superheated steam heat, gravitational energy rising storage jet vacuum acceleration acceleration.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, receives heat from a vertical-type full-blade water gravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply equipment, and makes various types of heat electrification factory factory The energy is divided into a high-pressure liquid air cold heat + superheated steam heat energy compressed by a heat pump as the air temperature, and the gravitational energy is increased storage injection.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, receives heat from a vertical-type full-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam temperature supply facility, and makes various types of heat to use hot electricity The energy is divided into a high-pressure liquid air cold heat + superheated steam heat energy compressed by a heat pump as the air temperature, and the gravitational energy is increased storage injection.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, receives it from a vertical all-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply facility, and burns ultrahigh pressure liquid air cold injection fuel injection fuel Various heat energy is used as a means of transportation, heat energy is compressed with a heat pump as air temperature, divided into high-pressure liquid air cold heat + superheated steam heat, and gravitational energy rises. Organization and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, receives it from a vertical all-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply facility, and burns ultrahigh pressure liquid air cold injection fuel injection fuel Various heat energy is used as a means of transportation, heat energy is compressed with a heat pump as air temperature, divided into high-pressure liquid air cold heat + superheated steam heat, and gravitational energy rises. Organization and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, receives it from a vertical all-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply facility, and burns ultrahigh pressure liquid air cold injection fuel injection fuel Various heat energy is used as a means of transportation, heat energy is compressed with a heat pump as air temperature, divided into high-pressure liquid air cold heat + superheated steam heat, and gravitational energy rises. Organization and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, receives it from a vertical all-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply facility, and burns ultrahigh pressure liquid air cold injection fuel injection fuel Various heat energy is used as a means of transportation, heat energy is compressed with a heat pump as air temperature, divided into high-pressure liquid air cold heat + superheated steam heat, and gravitational energy rises. Organization and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, receives it from a vertical all-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply facility, and burns ultrahigh pressure liquid air cold injection fuel injection fuel Various heat energy is used as a means of transportation, heat energy is compressed with a heat pump as air temperature, divided into high-pressure liquid air cold heat + superheated steam heat, and gravitational energy rises. Organization and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) recovers suction compression heat, receives it from a vertical all-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature heat supply facility, and burns ultrahigh pressure liquid air cold injection fuel injection fuel Various heat energy is used as a means of transportation, heat energy is compressed with a heat pump as air temperature, divided into high-pressure liquid air cold heat + superheated steam heat, and gravitational energy rises. Organization and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Recovers suction compression heat, and makes vertical power blade water gravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature supply equipment prime, various heat energy as air temperature with heat pump Compressed high-pressure liquid air cold heat + superheated steam heat divided storage use ・ gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum use various energy storage cycle coalescence engine and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Inlet / Compression Heat Recovery Electricity + Liquid Air Cold Heat + Liquid Air Cold Heat Received from Superheated Steam Heat Supply Facility Liquid water suction water jet (80U) that heats and injects multiple times from the outer periphery and sucks and injects water. Various heat energy is stored as air temperature by heat pump compressed high pressure liquid air cold + superheated steam temperature Gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Recovered suction compression heat electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment Ultra high pressure injection multiple times fuel injection combustion liquid that was injected with ultra high pressure from the inner circumference and inner circumference outer circumference Liquid water suction water jet (80X) that heats and injects multiple times and sucks and jets water, and various heat energy is stored as air temperature by heat pump compressed into high pressure liquid air cold heat + superheated steam heat Is ascending storage jet vacuum acceleration acceleration in gravity using various energy storage cycle coalescence engine and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Inlet / Compression Heat Recovery Electricity + Liquid Air Cold Heat + Liquid Air Cold Heat Received from Superheated Steam Heat Supply Facility Liquid air suction water jet (80S) that heats and injects multiple times from the outer periphery, sucks and injects air and sucks and jets water, and various heat energy is compressed by a high-pressure liquid air cold heat + superheated steam temperature with a heat pump as the air temperature Divided storage use / gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Inlet / Compression Heat Recovery Electricity + Liquid Air Cold Heat + Liquid Air Cold Heat Received from Superheated Steam Heat Supply Facility It is heated and injected several times from the outer periphery, fuel injection combustion injection is also carried out at a plurality of locations of the air suction flow, and it is made into a liquid air suction water jet (80T) that sucks and injects water, and various thermal energy is air Compressed high-pressure liquid air cold heat + superheated steam temperature as a temperature divided storage use ・ gravity energy is increased storage injection vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Recovered suction compression heat electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment Ultra high pressure injection multiple times fuel injection combustion liquid that was injected with ultra high pressure from the inner circumference and inner circumference outer circumference Liquid air suction water jet (80Y) that heats and injects multiple times, and sucks and injects air to suck and jets water, and various heat energy is divided into air pressure and high pressure liquid air cold + superheated steam temperature as a heat pump Conservation use / gravity energy is increased storage injection vacuum acceleration of gravitational acceleration Use various energy conservation cycle coalescence engine and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Recovered suction compression heat electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment Ultra high pressure injection multiple times fuel injection combustion liquid that was injected with ultra high pressure from the inner circumference and inner circumference outer circumference Injected by heating multiple times and injecting, fuel injection / combustion injection also in multiple locations of air suction flow, air suction injection and liquid air suction water jet (80Z) that sucks and injects water, and various thermal energy as air temperature Compressed high-pressure liquid air cold heat + superheated steam temperature with a heat pump and used for split storage. Gravity energy is increased storage injection. Gravity acceleration acceleration in vacuum. Various energy storage cycle merging engines and merging methods.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Recovered suction compression heat electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment Ultra high pressure injection multiple times fuel injection combustion liquid that was injected with ultra high pressure from the inner circumference and inner circumference outer circumference Liquid combined jetting unit (80E) that heats and jets multiple times to inject and sucks and injects air, and various heat energies are stored as air temperature by heat pump compressed into high pressure liquid air cold heat + superheated steam temperature heat use / gravity energy rises Various energy conservation cycle coalescence engine and coalescence method to use acceleration of gravity acceleration in storage jet vacuum.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Recovered suction compression heat electricity + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment Ultra high pressure injection multiple times fuel injection combustion liquid that was injected with ultra high pressure from the inner circumference and inner circumference outer circumference Injected by heating multiple times, injected into a plurality of locations with air suction flow, and injected into a liquid coalescence injection unit (80F) for air suction injection. Various heat energy is compressed by a heat pump as the air temperature. Divided storage use for air cooling + superheated steam temperature / gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum, various energy storage cycle coalescing engine and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Inlet / Compression Heat Recovery Electricity + Liquid Air Cold Heat + Liquid Air Cold Heat Received from Superheated Steam Heat Supply Facility It is heated and injected several times from the outer periphery, fuel injection combustion injection is also carried out at several places of air suction flow, and it is made into a liquid coalescence injection part (80V) for air suction injection, and various heat energy is compressed by a heat pump as high air pressure Liquid air cold heat + superheated steam temperature divided storage use ・ gravity energy rises storage spray acceleration of gravity acceleration in vacuum various energy storage cycle coalescence engine and coalescence method.   Two or more rectangular long lenses (2d) are gathered into a linear shape by collecting sunlight in a straight line to shorten the focal length and heat-insulating a plurality of solar heaters with a right angle joint etc. (1G) Inlet / Compression Heat Recovery Electricity + Liquid Air Cold Heat + Liquid Air Cold Heat Received from Superheated Steam Heat Supply Facility Liquid combined injection unit (80W) that injects by heating multiple times from the outer periphery and inhales and injects air. Various heat energy is stored as air temperature by heat pump compressed into high pressure liquid air cold heat + superheated steam heat Is ascending storage jet vacuum acceleration acceleration in gravity using various energy storage cycle coalescence engine and coalescence method.   The air is sucked and compressed by the water gravity power generation electric drive heat pump (1G), and is used as a vertical all blade hydrogravity turbine (8H) power generation, received from the electric drive electricity + liquid air cold heat + superheated steam temperature heat supply equipment Liquid air-cooled automobiles, etc. Various heat energy is compressed as high-temperature liquid air cold heat + superheated steam heat using air pump as air temperature. Gravity energy is increased and stored. Cycle coalescence engine and coalescence method.   Air is recovered by suction and compression heat using a hydrogravity power generation electric pump (1G) and received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment Various energy storage cycles that use air-cooled heat transportation means that heat energy is stored as air temperature by heat pump and divided into high-pressure liquid air cold heat + superheated steam heat storage, gravitational energy is increased storage jet acceleration of acceleration of gravity in vacuum Merger engine and merger method.   Air is recovered by suction compression heat with a water gravity power generation electric drive heat pump (1G) and received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam heat supply equipment Various heat energy used as a kind of driving means, divided into air pressure, compressed by high pressure liquid air cold heat + superheated steam heat as air temperature, and gravitational energy rises stored, sprayed, accelerated acceleration of gravity in vacuum, combined energy storage cycle combined engine And coalescing method.   Air is recovered by suction compression heat with a water gravity power generation electric drive heat pump (1G) and received from a vertical all blade water gravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment Various heat energy used as a kind of driving means, divided into air pressure, compressed by high pressure liquid air cold heat + superheated steam heat as air temperature, and gravitational energy rises stored, sprayed, accelerated acceleration of gravity in vacuum, combined energy storage cycle combined engine And coalescing method.   Air is sucked and compressed by a water gravity power generation electric drive heat pump (1G), and is cooled by receiving heat from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment. Various types of thermal energy driven by various means of transportation. Various heat energy is stored as air temperature by a heat pump, divided into high-pressure liquid air cold heat + superheated steam heat. Storage cycle coalescence engine and coalescence method.   Air is sucked and compressed by a water gravity power generation electric drive heat pump (1G), and is cooled by receiving heat from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment. Use factory electrification prime, various heat energy is compressed by high pressure liquid air cold heat + superheated steam heat divided by air pump as air temperature use, gravity energy rises, saves energy, sprays accelerates acceleration of gravity in vacuum Organization and coalescence method.   Air is recovered by suction compression heat with a water gravity power generation electric drive heat pump (1G), and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply facility to heat Use various types of energy storage cycle to make use of home electrification, heat energy is compressed by high pressure liquid air cold heat + superheated steam heat by air pump as air temperature Organization and coalescence method.   Air is sucked and compressed with a water gravity power generation electric drive heat pump (1G), and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment. High pressure liquid air cold fuel injection Fuel injection Combustion pressure engine driven to various transportation means, various heat energy is compressed as high temperature liquid air cold heat + superheated steam temperature using air pump as air temperature Various energy storage cycle coalescence engines and coalescence methods used for acceleration of gravitational acceleration in vacuum.   Air is sucked and compressed with a water gravity power generation electric drive heat pump (1G), and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment. High pressure liquid air cold fuel injection Fuel injection multiple combustion pressure engine drive to various transport means, various heat energy is compressed by high pressure liquid air cold heat + superheated steam temperature heat with air pump as air temperature use / gravity energy rise Various energy conservation cycle coalescence engine and coalescence method to use acceleration of gravity acceleration in storage jet vacuum.   Air is sucked and compressed with a water gravity power generation electric drive heat pump (1G), and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment. High pressure liquid air cold fuel injection Fuel injection Multiple times heating water is heated several times to drive the pressure engine to make various transportation means, various heat energy is divided into air pressure, high pressure liquid air cold heat + superheated steam temperature by heat pump Conservation use / gravity energy is increased storage injection vacuum acceleration of gravitational acceleration Use various energy conservation cycle coalescence engine and coalescence method.   Air is sucked and compressed with a water gravity power generation electric drive heat pump (1G), and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment. High pressure liquid air cold fuel injection Fuel injection Multiple times Combustion The outer peripheral water is heated several times to drive the pressure engine to make various transportation means, various heat energy is compressed by high pressure liquid air cold heat + superheated steam temperature as a heat pump Divided storage use / gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Air is sucked and compressed with a water gravity power generation electric drive heat pump (1G), and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment. High pressure liquid air cold fuel injection Fuel injection Multiple times of combustion Inner periphery water is heated several times to drive the pressure engine to make various transport means, various heat energy is compressed by high pressure liquid air cold heat + superheated steam with air pump as air temperature Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Air is sucked and compressed with a water gravity power generation electric drive heat pump (1G), and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment. High pressure liquid air cold fuel injection Fuel injection Multiple times of combustion Inner and outer periphery water is heated several times to drive the pressure engine to make various transport means, various heat energy is compressed as air temperature with a heat pump, high pressure liquid air cold heat + superheat Divided storage use for steam heat / gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Various types of air, water gravity power generation electric drive heat pump (1G) recovers suction compression heat, and vertical type rotor blade water gravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam temperature supply equipment prime Various energy storage cycle coalescence engines and coalescence methods that use heat energy as air temperature divided by heat pump compressed high pressure liquid air cold heat + superheated steam heat, and gravitational energy rises and accelerates gravity acceleration in vacuum.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and sprayed from the inner circumference, outer circumference, and inner circumference outer circumference several times to form a liquid water suction water jet (80 U) that sucks and jets water, and various heat energy is compressed by a heat pump as air temperature. + Divided storage use for superheated steam temperature / gravity energy is increased storage injection Acceleration of gravity acceleration in vacuum, various energy storage cycle coalescence engine and coalescence method.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid is heated and sprayed multiple times from the inner and outer peripheries to form a liquid water suction water jet (80X) that sucks and injects water. Divided storage use for steam heat / gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid is heated and sprayed from the inner circumference, outer circumference, and inner and outer circumferences multiple times to form a liquid air suction water jet (80S) that sucks and jets water by air suction, and various heat energy is compressed by a heat pump as air temperature. Divided storage use of high-pressure liquid air cold heat + superheated steam heat ・ Gravity energy rises storage Injection Acceleration of gravitational acceleration in vacuum Various energy storage cycle coalescence engine and coalescence method.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid air suction water jet that heats and injects liquid several times from the inner circumference, outer circumference, and inner circumference outer circumference, and also injects and injects fuel into a plurality of locations of air suction flow and sucks and injects water by air suction and injection ( 80T), heat energy is compressed by high pressure liquid air cold heat + superheated steam heat with air pump as air temperature, and gravitational energy rises, saves and sprays, accelerates gravitational acceleration in vacuum, and uses various energy conservation cycle coalescing engine and coalescence Method.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid is heated and sprayed multiple times from the inner and outer peripheries, and is made into a liquid air suction water jet (80Y) that sucks and jets water by air suction and jets, and various thermal energy is compressed by a heat pump as air temperature. Liquid air cold heat + superheated steam heat divided storage use / gravity energy rising storage spray vacuum acceleration acceleration of various energy storage cycle coalescence engine and coalescence method.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid air suction water jet (80Z) that heats and injects liquid several times from the inner and outer peripheries, injects and injects fuel into multiple air suction flows, and sucks and injects water by air suction and injection Various energy storage cycle coalescence engine and coalescence method using various heat energy as air temperature divided by heat pump compressed high pressure liquid air cold heat + superheated steam heat, gravity energy is increased storage injection vacuum acceleration of gravity acceleration.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection A combined engine injection unit 78A that heats and injects the liquid a plurality of times from the inner periphery and the outer periphery of the inner periphery and injects and sucks air, and various energy storage cycle combined engines and methods. , Various heat energy is compressed by high pressure liquid air cold heat + superheated steam heat by air pump as air temperature.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection The liquid is heated and injected several times from the inner periphery and the outer periphery of the inner periphery, and fuel injection combustion injection is performed also at a plurality of locations of the air suction flow to form a liquid combined injection unit (80F) for air suction injection, and various thermal energy is air Compressed high-pressure liquid air cold heat + superheated steam temperature as the temperature is divided and used for storage / gravity energy is increased Storage injection Vacuum gravitational acceleration acceleration Use various energy storage cycle coalescence engine and coalescence method.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid is heated and injected several times from the inner circumference, outer circumference, and inner circumference and outer circumference, and the liquid combined jet section (80 V) that injects and injects fuel into a plurality of locations of the air suction flow to produce air suction and injection. The air temperature is a heat pump compressed by high pressure liquid air cold heat + superheated steam heat divided and used for storage. Gravity energy rises storage.   Electricity collected by suction and compression heat recovery by water gravity power generation electric drive heat pump (1G) + liquid air cold heat + liquid air cold heat received from superheated steam temperature heat supply equipment ultra high pressure injection multiple times fuel injection combustion and ultra high pressure injection Liquid is heated multiple times from the inner and outer peripheries and inner and outer peripheries to form a liquid coalesced jet unit (80W) that sucks and jets air. Divided storage use for steam heat / gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Air is sucked and compressed with 1 to multi-stage heat pump (1G), and is converted into a vertical all-blade hydrogravity turbine (8H) power generation, which is received from an electric drive electricity + liquid air cold heat + superheated steam heat supply facility to obtain liquid Various types of energy storage cycles that use air-cooled driving vehicles, such as heat energy is divided into air pressure compressed by high-pressure liquid air cold heat + superheated steam heat using air pumps, and gravity energy rises and saves. Merger engine and merger method.   Air is collected by suction and compression heat using a 1-stage heat pump (1G), and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold + superheated steam heat supply equipment to produce liquid air Various heat energy to be used as cold transportation means, heat energy is compressed with a heat pump as air temperature, divided into high pressure liquid air cold heat + superheated steam heat, used for storage, and gravitational energy rises, stored, sprayed, accelerated acceleration of gravity in vacuum, combined with various energy storage cycles Organization and coalescence method.   Ships by collecting suction and compression heat with 1 to multi-stage heat pump (1G) and receiving from a vertical-type all-blade water gravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam heat supply equipment Various heat energy used as driving means, divided into air pressure, compressed by high pressure liquid air cold heat + superheated steam heat as air temperature, used, and gravitational energy increased, stored, sprayed, accelerated acceleration of gravity in vacuum, and various energy storage cycle combined engines Merge method.   Air is collected by suction compression heat recovery with 1 to multiple stage heat pump (1G), and is received from vertical all-blade water gravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam heat supply equipment Various heat energy used as driving means, divided into air pressure, compressed by high pressure liquid air cold heat + superheated steam heat as air temperature, used, and gravitational energy increased, stored, sprayed, accelerated acceleration of gravity in vacuum, and various energy storage cycle combined engines Merge method.   Air is sucked and compressed with 1 to multiple stage heat pumps (1G), and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply facility. Various heat energy used as an electric drive means, various heat energy as air temperature compressed by high pressure liquid air cold heat + superheated steam heat divided storage use ・ gravity energy rise storage use spray energy acceleration acceleration use in vacuum Cycle coalescence engine and coalescence method.   Recovers air by sucking and compressing heat with a 1 to multi-stage heat pump (1G), and using cold heat by receiving electricity from a vertical-type full-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment Various electric energy storage cycle coalescence engine that makes use of factory electrification, various heat energy is compressed and stored as air temperature with heat pump divided into high pressure liquid air cold heat + superheated steam temperature And coalescing method.   Air is collected by suction and compression heat with a 1 to multi-stage heat pump (1G) and is received from a vertical all-blade hydrogravity turbine (8H) power generation electric drive electricity + liquid air cold heat + superheated steam heat supply equipment to use heat Various types of energy storage cycle coalescence engine that makes home electric prime, various heat energy is compressed and stored as air temperature with heat pump, divided into high pressure liquid air cold heat + superheated steam heat, gravity energy rises storage jet acceleration of gravity acceleration in vacuum And coalescing method.   Air is collected by suction and compression heat using a 1-stage heat pump (1G), and is received from a vertical-type all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment, and ultra-high pressure Liquid air cold fuel injection Fuel injection Combustion pressure engine Driven to various transportation means, various heat energy as air temperature, compressed by high pressure liquid air cold heat + superheated steam temperature with air pump use, gravitational energy rises storage injection vacuum Various energy storage cycle coalescence engine and coalescence method used for medium gravity acceleration acceleration.   Air is collected by suction and compression heat using a 1-stage heat pump (1G), and is received from a vertical-type all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment, and ultra-high pressure Liquid air cold fuel injection Fuel injection Multiple combustion pressure engine driven and used as various transportation means, various heat energy is stored as air temperature by heat pump compressed into high pressure liquid air cold heat + superheated steam temperature use Various energy storage cycle coalescence engine and coalescence method to use acceleration of gravity acceleration in jet vacuum.   Air is collected by suction and compression heat using a 1-stage heat pump (1G), and is received from a vertical-type all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment, and ultra-high pressure Liquid air cold heat injection Fuel injection Multiple times heating water is heated multiple times to drive the pressure engine to make various transportation means, various heat energy is divided into air pressure and compressed high pressure liquid air cold heat + superheated steam temperature with a heat pump Use / gravity energy is ascending conservation spraying Gravity acceleration acceleration in vacuum Various energy conservation cycle coalescing engine and coalescence method.   Air is collected by suction and compression heat using a 1-stage heat pump (1G), and is received from a vertical-type all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment, and ultra-high pressure Liquid air cold fuel injection Fuel injection Multiple times of combustion The outer periphery water is heated several times to drive the pressure engine to make various transport means, various heat energy is compressed as high-temperature liquid air cold heat + superheated steam temperature with a heat pump as air temperature Divided storage use / gravity energy is ascending storage jet vacuum acceleration of gravity acceleration use various energy storage cycle coalescence engine and coalescence method.   Air is collected by suction and compression heat using a 1-stage heat pump (1G), and is received from a vertical-type all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment, and ultra-high pressure Liquid air cold fuel injection Fuel injection Multiple times of combustion Inner water is heated multiple times to drive the pressure engine to make various transport means, various heat energy is compressed by high pressure liquid air cold heat + superheated steam temperature with heat pump as air temperature Divided storage use / gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Air is collected by suction and compression heat using a 1-stage heat pump (1G), and is received from a vertical-type all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment, and ultra-high pressure Liquid air cold fuel injection Fuel injection Multiple times of combustion Inner and outer periphery water is heated several times to drive the pressure engine to make various transport means, various heat energy is compressed as high temperature liquid air cold heat + superheated steam with air pump as air temperature Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Various types of heat that collects suction compression heat with 1 to multiple heat pumps (1G), and makes the power of the vertical all-blade hydrogravity turbine (8H) power generation electric drive + liquid air cold heat + superheated steam heat supply equipment The energy is divided into a high-pressure liquid air cold heat + superheated steam heat energy compressed by a heat pump as the air temperature, and the gravitational energy is increased storage injection.   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) Is heated and sprayed from the inner circumference, outer circumference, and inner circumference outer circumference several times to form a liquid water suction water jet (80 U) that sucks and jets water. Divided storage use for superheated steam temperature / gravity energy is increased storage injection Vacuum gravitational acceleration acceleration used various energy storage cycle coalescence engine and coalescence method.   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) Is heated multiple times from the inner and outer peripheries to form a liquid water suction water jet (80X) that sucks and injects water, and various heat energy is compressed by a high-pressure liquid air cold / superheated steam with a heat pump as the air temperature Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) Is heated and sprayed from the inner circumference, outer circumference, and inner circumference outer circumference several times to form a liquid air suction water jet (80S) that sucks and jets water by air suction, and various heat energy is compressed by a heat pump as air temperature. Liquid air cold heat + superheated steam temperature divided storage use ・ gravity energy rises storage spray acceleration of gravity acceleration in vacuum various energy storage cycle coalescence engine and coalescence method.   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) A liquid air suction water jet (80T) that heats and injects a plurality of times from the inner circumference, outer circumference, and inner circumference outer circumference, and also injects and injects fuel into a plurality of air suction flows, and sucks and injects water by air suction and injection. ), Various heat energy is compressed into high pressure liquid air cold heat + superheated steam heat as air temperature by using a heat pump .   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) Is heated and sprayed several times from the inner and outer peripheries to form a liquid air suction water jet (80Y) that sucks and jets water by air suction and jets, and various heat energy is compressed by a heat pump as air temperature. Divided storage use for air cooling + superheated steam temperature / gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum, various energy storage cycle coalescing engine and coalescence method.   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) Is heated and injected several times from the inner and outer peripheries, and fuel is injected into the air suction flow at multiple locations, and is injected into a liquid air suction water jet (80Z) that sucks and injects water. , Various energy storage cycle coalescence engine and coalescence method, using various heat energy as air temperature divided by heat pump compressed high pressure liquid air cold heat + superheated steam heat, gravitational energy rising storage jet vacuum acceleration acceleration.   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) Is heated and sprayed multiple times from the inner and outer peripheries to form a liquid coalescence injection unit (80E) that inhales and injects air. Divided storage use / gravity energy is ascending storage jet vacuum acceleration of gravity acceleration use various energy storage cycle coalescence engine and coalescence method.   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) Is heated several times from the inner and outer peripheries, and is injected into the liquid combined injection unit (80F) that injects and injects fuel into a plurality of locations of the air suction flow. Compressed high-pressure liquid air cold heat + superheated steam heat with a heat pump as storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) Is heated several times from the inner circumference, outer circumference, and inner circumference outer circumference, and is injected into the liquid combined injection section (80V) that injects and injects fuel into multiple air suction flows at multiple locations. Various energy storage cycle coalescence engines and coalescence methods that use air pressure compressed by high pressure liquid air cold heat + superheated steam heat as the air temperature, and use the energy of gravity ascending and accelerating gravitational acceleration in vacuum.   Liquid obtained by ultra-high pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment that has collected suction and compression heat with 1 to multiple heat pumps (1G) Is heated multiple times from the inner circumference, outer circumference, and inner circumference and outer circumference to form a liquid combined jet section (80 W) that injects and sucks air. Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven by electricity + liquid air cooling + superheated steam temperature supply equipment to make liquid air cooling driven automobiles, various heat energy is divided into air pressure and compressed high pressure liquid air cooling + superheated steam temperature using a heat pump -Gravity energy is ascending storage jets Accelerating gravity acceleration in vacuum Various energy storage cycle coalescing engines and coalescing methods.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Receiving from driving electricity + liquid air cold heat + superheated steam temperature supply equipment to make pressure engine driven automobiles, various heat energy is divided into air pressure and compressed high pressure liquid air cold heat + superheated steam temperature using a heat pump Gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven electricity + liquid air cold heat + superheated steam heat supply facility and used as liquid air cold heat pressure engine driven transport means, various heat energy is compressed into high pressure liquid air cold heat + superheated steam heat with a heat pump as air temperature Divided storage use / gravity energy is ascending storage jet vacuum acceleration of gravity acceleration use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven electricity + liquid air cold heat + superheated steam temperature supply equipment to receive the pressure engine drive means, various heat energy is compressed into high pressure liquid air cold heat + superheated steam temperature heat with a heat pump as air temperature Energy rising storage injection Vacuum acceleration acceleration in gravity Various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven electricity + liquid air cold heat + superheated steam temperature heat supply equipment, which is a pressure engine drive means to inject ultra high pressure liquid air, various heat energy is compressed by high pressure liquid air cold heat + superheated steam temperature with a heat pump as air temperature Divided storage use / gravity energy is ascending storage jet vacuum acceleration acceleration in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven electricity + liquid air cold heat + superheated steam temperature heat supply equipment, driven by a pressure engine that injects liquid air ultra-high pressure, various heat energy is divided into air pressure and compressed high pressure liquid air cold heat + superheated steam temperature as a heat pump Conservation use / gravity energy is increased storage injection vacuum acceleration of gravitational acceleration Use various energy conservation cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Receiving from drive electricity + liquid air cold heat + superheated steam temperature heat supply facility and making it a vehicle moving means, various heat energy is stored as air temperature by heat pump compressed high pressure liquid air cold heat + superheated steam heat Energy rising storage injection Vacuum acceleration acceleration in gravity Various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven electricity + liquid air cold heat + superheated steam temperature supply equipment and used as a vehicle pressure engine drive means, various heat energy is stored as air temperature by heat pump compressed high pressure liquid air cold heat + superheated steam temperature -Gravity energy is ascending storage jets Accelerating gravity acceleration in vacuum Various energy storage cycle coalescing engines and coalescing methods.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven electricity + liquid air cold heat + superheated steam temperature supply equipment to receive the pressure engine drive means, various heat energy is compressed into high pressure liquid air cold heat + superheated steam temperature heat with a heat pump as air temperature Energy rising storage injection Vacuum acceleration acceleration in gravity Various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven by electricity + liquid air cooling + superheated steam temperature supply equipment to make liquid air cooling driven automobiles, various heat energy is divided into air pressure and compressed high pressure liquid air cooling + superheated steam temperature using a heat pump -Gravity energy is ascending storage jets Accelerating gravity acceleration in vacuum Various energy storage cycle coalescing engines and coalescing methods.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Receiving from the drive electricity + liquid air cold heat + superheated steam temperature supply equipment and using it as a means of transporting using liquid air cold heat, various heat energy is stored as divided into air pressure and high pressure liquid air cold heat + superheated steam heat as a heat pump -Gravity energy is ascending storage jets Accelerating gravity acceleration in vacuum Various energy storage cycle coalescing engines and coalescing methods.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven by electricity + liquid air cold heat + superheated steam temperature heat supply equipment to drive an ultra-high pressure liquid air injection pressure engine, various heat energy is divided into air pressure and compressed high pressure liquid air cold heat + superheated steam temperature heat pump Conservation use / gravity energy is increased storage injection vacuum acceleration of gravitational acceleration Use various energy conservation cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Driven electricity + liquid air cold heat + superheated steam temperature heat supply equipment to receive ultra high pressure liquid air injection pressure engine drive means, various heat energy is compressed into high pressure liquid air cold heat + superheated steam temperature with a heat pump as air temperature Divided storage use / gravity energy is ascending storage jet vacuum acceleration of gravity acceleration use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heated and sprayed from the inner circumference, outer circumference, and inner circumference outer circumference multiple times to form a liquid water suction water jet (80U) that sucks and jets water. Divided storage use for superheated steam temperature / gravity energy is increased storage injection Vacuum gravitational acceleration acceleration used various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heated and sprayed from the inner and outer circumferences multiple times to form a liquid water suction water jet (80X) that sucks and jets water. Various heat energy is compressed by a high-pressure liquid air cold heat + superheated steam with a heat pump as the air temperature Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heating and spraying multiple times from the inner and outer peripheries and inner and outer peripheries to form a liquid air suction water jet (80S) that sucks and injects water by air suction, and various heat energy is compressed by a heat pump as air temperature Liquid air cold heat + superheated steam temperature divided storage use ・ gravity energy rises storage spray acceleration of gravity acceleration in vacuum various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Liquid air suction water jet (80T) that heats and injects multiple times from the inner and outer peripheries and inner and outer peripheries, injects and injects fuel into multiple air suction flows, and sucks and injects water by air suction and injection Various heat energy is divided into air pressure, compressed by high pressure liquid air cold heat + superheated steam heat as air temperature. Gravity energy rises. Saves energy. Union organizations and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) The liquid is a high pressure liquid compressed by a heat pump as the air temperature. Divided storage use for air cooling + superheated steam temperature / gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum, various energy storage cycle coalescing engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Liquid air suction water jet (80Z) that heats and injects multiple times from the inner and outer peripheries, and also injects and injects fuel into multiple air suction flows, and sucks and injects water by air suction and injection 、 Various heat energy is compressed by high-pressure liquid air cold heat + superheated steam temperature as air temperature and stored separately. ・ Gravity energy is increased and stored. Seki and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Various heat energy is made into a liquid coalescence injection part (80E) that heats and injects multiple times from the inner and outer peripheries, and sucks and injects air. Divided storage use / gravity energy is ascending storage jet vacuum acceleration of gravity acceleration use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heat is injected several times from the inner and outer peripheries, fuel injection combustion injection is also performed at several locations of the air suction flow, and the liquid combined injection section (80F) for air suction injection is used. Compressed high-pressure liquid air cold heat + superheated steam heat with a heat pump as storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Various heat energies that are heated and injected several times from the inner circumference, outer circumference, and inner circumference outer circumference, and are made into a liquid coalescence injection section (80V) that injects fuel into combustion and injects into a plurality of locations of air suction flow and sucks and injects air. Various energy storage cycle coalescence engines and coalescence methods that use air pressure compressed by high pressure liquid air cold heat + superheated steam heat as the air temperature, and use the energy of gravity ascending and accelerating gravitational acceleration in vacuum.   Specimen material riser (2F) rises around 300 meters and saves, Specimen material accelerator (6W) Water (3E) Jet gravity acceleration accelerates and drives vertical all blade water gravity turbine (8H) power generation, Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Various heat energies are heated and sprayed from the inner circumference, outer circumference and inner circumference outer circumference multiple times to form a liquid combined jet section (80W) that sucks and jets air. Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heated and sprayed from the inner circumference, outer circumference, and inner circumference outer circumference multiple times to form a liquid water suction water jet (80U) that sucks and jets water. Divided storage use for superheated steam temperature / gravity energy is increased storage injection Vacuum gravitational acceleration acceleration used various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heated and sprayed from the inner and outer circumferences multiple times to form a liquid water suction water jet (80X) that sucks and jets water. Various heat energy is compressed by a high-pressure liquid air cold heat + superheated steam with a heat pump as the air temperature Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heating and spraying multiple times from the inner and outer peripheries and inner and outer peripheries to form a liquid air suction water jet (80S) that sucks and injects water by air suction, and various heat energy is compressed by a heat pump as air temperature Liquid air cold heat + superheated steam temperature divided storage use ・ gravity energy rises storage spray acceleration of gravity acceleration in vacuum various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Liquid air suction water jet (80T) that heats and injects multiple times from the inner and outer peripheries and inner and outer peripheries, injects and injects fuel into multiple air suction flows, and sucks and injects water by air suction and injection Various heat energy is divided into air pressure, compressed by high pressure liquid air cold heat + superheated steam heat as air temperature. Gravity energy rises. Saves energy. Union organizations and coalescence method.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) The liquid is a high pressure liquid compressed by a heat pump as the air temperature. Divided storage use for air cooling + superheated steam temperature / gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum, various energy storage cycle coalescing engine and coalescence method.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Liquid air suction water jet (80Z) that heats and injects multiple times from the inner and outer peripheries, and also injects and injects fuel into multiple air suction flows, and sucks and injects water by air suction and injection 、 Various heat energy is compressed by high-pressure liquid air cold heat + superheated steam temperature as air temperature and stored separately. ・ Gravity energy is increased and stored. Seki and coalescence method.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Various heat energy is made into a liquid coalescence injection part (80E) that heats and injects multiple times from the inner and outer peripheries, and sucks and injects air. Divided storage use / gravity energy is ascending storage jet vacuum acceleration of gravity acceleration use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heat is injected several times from the inner and outer peripheries, fuel injection combustion injection is also performed at several locations of the air suction flow, and the liquid combined injection section (80F) for air suction injection is used. Compressed high-pressure liquid air cold heat + superheated steam heat with a heat pump as storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Various heat energies that are heated and injected several times from the inner circumference, outer circumference, and inner circumference outer circumference, and are made into a liquid coalescence injection section (80V) that injects fuel into combustion and injects into a plurality of locations of air suction flow and sucks and injects air. Various energy storage cycle coalescence engines and coalescence methods that use air pressure compressed by high pressure liquid air cold heat + superheated steam heat as the air temperature, and use the energy of gravity ascending and accelerating gravitational acceleration in vacuum.   Specimen material riser (2F) rises around 200 meters, saves grave material accelerator (6W), water (3E), accelerates gravity acceleration, and drives a vertical all blade hydrogravity turbine (8H) to generate electricity. Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Various heat energies are heated and sprayed from the inner circumference, outer circumference and inner circumference outer circumference multiple times to form a liquid combined jet section (80W) that sucks and jets air. Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heated and sprayed from the inner circumference, outer circumference, and inner circumference outer circumference multiple times to form a liquid water suction water jet (80U) that sucks and jets water. Divided storage use for superheated steam temperature / gravity energy is increased storage injection Vacuum gravitational acceleration acceleration used various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heated and sprayed from the inner and outer circumferences multiple times to form a liquid water suction water jet (80X) that sucks and jets water. Various heat energy is compressed by a high-pressure liquid air cold heat + superheated steam with a heat pump as the air temperature Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heating and spraying multiple times from the inner and outer peripheries and inner and outer peripheries to form a liquid air suction water jet (80S) that sucks and injects water by air suction, and various heat energy is compressed by a heat pump as air temperature Liquid air cold heat + superheated steam temperature divided storage use ・ gravity energy rises storage spray acceleration of gravity acceleration in vacuum various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Liquid air suction water jet (80T) that heats and injects multiple times from the inner and outer peripheries and inner and outer peripheries, injects and injects fuel into multiple air suction flows, and sucks and injects water by air suction and injection Various heat energy is divided into air pressure, compressed by high pressure liquid air cold heat + superheated steam heat as air temperature. Gravity energy rises. Saves energy. Union organizations and coalescence method.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) The liquid is a high pressure liquid compressed by a heat pump as the air temperature. Divided storage use for air cooling + superheated steam temperature / gravity energy is increased storage injection Acceleration of gravitational acceleration in vacuum, various energy storage cycle coalescing engine and coalescence method.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Liquid air suction water jet (80Z) that heats and injects multiple times from the inner and outer peripheries, and also injects and injects fuel into multiple air suction flows, and sucks and injects water by air suction and injection 、 Various heat energy is compressed by high-pressure liquid air cold heat + superheated steam temperature as air temperature and stored separately. ・ Gravity energy is increased and stored. Seki and coalescence method.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Various heat energy is made into a liquid coalescence injection part (80E) that heats and injects multiple times from the inner and outer peripheries, and sucks and injects air. Divided storage use / gravity energy is ascending storage jet vacuum acceleration of gravity acceleration use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Heat is injected several times from the inner and outer peripheries, fuel injection combustion injection is also performed at several locations of the air suction flow, and the liquid combined injection section (80F) for air suction injection is used. Compressed high-pressure liquid air cold heat + superheated steam heat with a heat pump as storage use / gravity energy rise storage injection vacuum gravity acceleration acceleration use various energy storage cycle coalescence engine and coalescence method.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Various heat energies that are heated and injected several times from the inner circumference, outer circumference, and inner circumference outer circumference, and are made into a liquid coalescence injection section (80V) that injects fuel into combustion and injects into a plurality of locations of air suction flow and sucks and injects air. Various energy storage cycle coalescence engines and coalescence methods that use air pressure compressed by high pressure liquid air cold heat + superheated steam heat as the air temperature, and use the energy of gravity ascending and accelerating gravitational acceleration in vacuum.   Specimen material riser (2F) ascends around 100 meters and saves, Specimen material accelerator (6W) Water (3E) Accelerating gravitational acceleration to drive vertical all-blade water gravity turbine (8H) power generation Liquid produced by super high-pressure injection and multiple high-pressure injections of liquid air cold received from electricity + liquid air cold heat + superheated steam temperature heat supply equipment manufactured by the driven 1-stage multi-stage compression heat recovery unit (2C) Various heat energies are heated and sprayed from the inner circumference, outer circumference and inner circumference outer circumference multiple times to form a liquid combined jet section (80W) that sucks and jets air. Divided storage use for heat and gravity energy is increased storage injection Vacuum acceleration acceleration of gravity in various energy storage cycle coalescence engine and coalescence method.